Variable Mappings for HadREM-CP4A (Created with CDDS v3.3.0)

STASHmaster vn13.1

Use the search box to filter rows, e.g. search for "tas" or "Amon tas".

Variable Mip Table Expression Comments Dimensions Units Component Status File
huss 3hr 
m01s03i237SPECIFIC HUMIDITY  AT 1.5M
Estimate of atmospheric specific humidity (g/kg) at 1.5m.
Calculated by integrating the similarity equations from the
surface to 1.5m (surface value taken as saturated specific
humidity at the surface temperature).

Available on all timesteps.
[lbproc=0]
 longitude latitude height2m time1 1 - ok HadREM-CP4A_3hr_mappings.cfg
mrsos 3hr 
m01s08i223SOIL MOISTURE CONTENT IN A LAYER
Total (frozen+unfrozen) soil moisture content in a soil layer (kg/m2).

Available on land points only.


Note: Includes the "wilting point" soil moisture.
[blev=0.05, lbproc=0]
 longitude latitude sdepth1 time1 kg m-2 - ok HadREM-CP4A_3hr_mappings.cfg
ps 3hr 
m01s00i409[lbproc=0]
 longitude latitude time1 Pa - ok HadREM-CP4A_3hr_mappings.cfg
tas 3hr 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=0]
 longitude latitude height2m time1 K atmos-physics ok HadREM-CP4A_3hr_mappings.cfg
uas 3hr 
m01s03i209[lbproc=0]
 longitude latitude height10m time1 m s-1 - ok HadREM-CP4A_3hr_mappings.cfg
vas 3hr 
m01s03i210[lbproc=0]
 longitude latitude height10m time1 m s-1 - ok HadREM-CP4A_3hr_mappings.cfg
ec550aer 6hrLev 
m01s02i530UKCA 3D AEROSOL EXTINCTION
Aerosol extinction coefficient in units m-1 from UKCA RADAER
summed over all available and optically active aerosol modes.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
To output this diagnostic the domain should specify both the
model theta levels desired for output, and a list of pseudo-levels
corresponding to the desired radiation bands for calculating
aerosol optical depth.

The integral of this diagnostic with height through the full
atmospheric column should be equal to the total optical depth
from UKCA RADAER (for the same wavelength(s)).
[lbplev=3, lbproc=0] + 
m01s02i540CLASSIC 3D AEROSOL EXTINCTION
Aerosol extinction coefficient in units m-1 from CLASSIC aerosols
summed over all available and optically active aerosol types.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
To output this diagnostic the domain should specify both the
model levels desired for output, and a list of pseudo-levels
corresponding to the desired radiation bands for calculating
aerosol optical depth.

The integral of this diagnostic with height through the full
atmospheric column should be equal to the total optical depth from
CLASSIC (for the same wavelength(s)).
[lbplev=3, lbproc=0]
 longitude latitude alevel lambda550nm time1 m-1 - ok HadREM-CP4A_6hrLev_mappings.cfg
hus 6hrLev 
m01s00i010[lbproc=0]
 longitude latitude alevel time1 1 atmos-physics ok HadREM-CP4A_6hrLev_mappings.cfg
pfull 6hrLev 
m01s00i408[lbproc=0]
 longitude latitude alevel time1 Pa atmos-physics ok HadREM-CP4A_6hrLev_mappings.cfg
ps 6hrLev 
m01s00i409[lbproc=0]
 longitude latitude time1 Pa atmos-physics ok HadREM-CP4A_6hrLev_mappings.cfg
ta 6hrLev 
m01s30i111[lbproc=0]
 longitude latitude alevel time1 K atmos-physics ok HadREM-CP4A_6hrLev_mappings.cfg
ua 6hrLev 
m01s00i002[lbproc=0]
commentNote that the vertical levels for this variable correspond to the boundaries of the equivalent scalar quantities, e.g. ta and hus.
 longitude latitude alevel time1 m s-1 atmos-physics ok HadREM-CP4A_6hrLev_mappings.cfg
va 6hrLev 
m01s00i003[lbproc=0]
commentNote that the vertical levels for this variable correspond to the boundaries of the equivalent scalar quantities, e.g. ta and hus.
 longitude latitude alevel time1 m s-1 atmos-physics ok HadREM-CP4A_6hrLev_mappings.cfg
psl 6hrPlevPt 
m01s16i222[lbproc=0]
 longitude latitude time1 Pa - ok HadREM-CP4A_6hrPlevPt_mappings.cfg
rv850 6hrPlevPt 
m01s30i455VORTICITY 850
VORTICITY 850
 1/s

 Relative vorticity at 850mbar.

 need to be requested to activate filter for
 FV-TRACK (see UMDP 032). Use in a single level
[blev=
P850850.0
, lbproc=0]
 longitude latitude p850 time1 s-1 - embargoed HadREM-CP4A_6hrPlevPt_mappings.cfg
ta 6hrPlevPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
PLEV3850.0 500.0 250.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
, lbproc=0]
 longitude latitude plev3 time1 K - ok HadREM-CP4A_6hrPlevPt_mappings.cfg
tsl 6hrPlevPt 
m01s08i225DEEP SOIL TEMP. AFTER HYDROLOGY DEGK
Available on land points only.
[blev=0.05, lbproc=0]
 longitude latitude sdepth1 time1 K - embargoed HadREM-CP4A_6hrPlevPt_mappings.cfg
ua7h 6hrPlevPt 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 m s-1 - ok HadREM-CP4A_6hrPlevPt_mappings.cfg
ua 6hrPlevPt 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV3850.0 500.0 250.0
, lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
, lbproc=0]
 longitude latitude plev3 time1 m s-1 - ok HadREM-CP4A_6hrPlevPt_mappings.cfg
uas 6hrPlevPt 
m01s03i209[lbproc=0]
 longitude latitude height10m time1 m s-1 atmos-physics ok HadREM-CP4A_6hrPlevPt_mappings.cfg
va7h 6hrPlevPt 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 m s-1 - ok HadREM-CP4A_6hrPlevPt_mappings.cfg
va 6hrPlevPt 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV3850.0 500.0 250.0
, lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
, lbproc=0]
 longitude latitude plev3 time1 m s-1 - ok HadREM-CP4A_6hrPlevPt_mappings.cfg
vas 6hrPlevPt 
m01s03i210[lbproc=0]
 longitude latitude height10m time1 m s-1 atmos-physics ok HadREM-CP4A_6hrPlevPt_mappings.cfg
zg500 6hrPlevPt 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P5050.0
0500.0
, lbproc=0] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=0]
 longitude latitude p500 time1 m - ok HadREM-CP4A_6hrPlevPt_mappings.cfg
toz AERday 
m01s50i219Ozone column in Dobson Units
Ozone Column from each model level to top of the atmosphere
in Dobson Units
One Dobson unit refers to a layer of gas that would be
0.01 mm thick at standard temperature and pressure.
Valid on all timesteps
[lblev=1, lbproc=128]
 longitude latitude time 1e-5 m - ok HadREM-CP4A_AERday_mappings.cfg
tas AERhr 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=128]
 longitude latitude height2m time K - embargoed HadREM-CP4A_AERhr_mappings.cfg
ch4 AERmonZ 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_CH416.
)
* 
m01s51i009CH4 MASS MIX RATIO ON PRESS LEVS
Methane Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 - ok HadREM-CP4A_AERmonZ_mappings.cfg
hcl AERmonZ 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_HCL36.5
)
* 
m01s51i992HCl MASS MIXING RATIO ON P LEVS
Mass mixing ratio of HCl (kg/kg)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 - ok HadREM-CP4A_AERmonZ_mappings.cfg
hno3 AERmonZ 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_HNO363.
)
* 
m01s51i007HONO2 MASS MIX RATIO ON PRESS LEVS
Nitric Acid Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 - ok HadREM-CP4A_AERmonZ_mappings.cfg
n2o AERmonZ 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_N2O44.
)
* 
m01s51i049N2O MASS MIXING RATIO ON PRESS LEVS
Nitrous Oxide Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 - ok HadREM-CP4A_AERmonZ_mappings.cfg
o3 AERmonZ 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_O348.
)
* 
m01s51i001O3 MASS MIXING RATIO ON PRESS LEVS
Ozone Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 - ok HadREM-CP4A_AERmonZ_mappings.cfg
oh AERmonZ 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_OH17.
)
* 
m01s51i081OH MASS MIXING RATIO ON PRESS LEVS
Hydroxyl radical Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 - ok HadREM-CP4A_AERmonZ_mappings.cfg
ta AERmonZ 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time K - ok HadREM-CP4A_AERmonZ_mappings.cfg
ua AERmonZ 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time m s-1 - ok HadREM-CP4A_AERmonZ_mappings.cfg
va AERmonZ 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time m s-1 - ok HadREM-CP4A_AERmonZ_mappings.cfg
zg AERmonZ 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time m - ok HadREM-CP4A_AERmonZ_mappings.cfg
ch4 AERmon 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_CH416.
)
* 
m01s34i009CH4 MASS MIXING RATIO AFTER TSTEP
Methane Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 - ok HadREM-CP4A_AERmon_mappings.cfg
n2o AERmon 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_N2O44.
)
* 
m01s34i049N2O MASS MIXING RATIO AFTER TIMESTEP
Nitrous Oxide Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 - ok HadREM-CP4A_AERmon_mappings.cfg
o3 AERmon 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_O348.
)
* 
m01s34i001O3 MASS MIXING RATIO AFTER TIMESTEP
Ozone Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 - ok HadREM-CP4A_AERmon_mappings.cfg
ua AERmon 
m01s00i002[lbproc=128]
 longitude latitude alevel time m s-1 - ok HadREM-CP4A_AERmon_mappings.cfg
va AERmon 
m01s00i003[lbproc=128]
 longitude latitude alevel time m s-1 - ok HadREM-CP4A_AERmon_mappings.cfg
zg AERmon 
m01s16i201[lbproc=128]
 longitude latitude alevel time m - ok HadREM-CP4A_AERmon_mappings.cfg
hur APday 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time % atmos-physics ok HadREM-CP4A_APday_mappings.cfg
hus APday 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time 1 - ok HadREM-CP4A_APday_mappings.cfg
ta APday 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time K - ok HadREM-CP4A_APday_mappings.cfg
sfcWindmax APday 
m01s03i23010 METRE WIND SPEED ON C GRID
No help entry available.
[lbproc=8192]
 longitude latitude height10m time m s-1 - ok HadREM-CP4A_APday_mappings.cfg
tasmax APday 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=8192]
 longitude latitude height2m time K - ok HadREM-CP4A_APday_mappings.cfg
tasmin APday 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=4096]
 longitude latitude height2m time K - ok HadREM-CP4A_APday_mappings.cfg
ua APday 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time m s-1 - ok HadREM-CP4A_APday_mappings.cfg
va APday 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time m s-1 - ok HadREM-CP4A_APday_mappings.cfg
wap APday 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time Pa s-1 - ok HadREM-CP4A_APday_mappings.cfg
zg APday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time m - ok HadREM-CP4A_APday_mappings.cfg
hur APmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time % atmos-physics ok HadREM-CP4A_APmon_mappings.cfg
hur Amon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time % atmos-physics ok HadREM-CP4A_Amon_mappings.cfg
pr Amon 
m01s04i203LARGE SCALE RAINFALL RATE    KG/M2/S
Large scale rainfall rate kg/m2/s
This is the mass per metre squared of rain (liquid precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 205). Multiply by 3600 to convert this value to mm/hour.
[lbproc=128] + 
m01s04i204LARGE SCALE SNOWFALL RATE    KG/M2/S
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour.
------------------------------------------------
Item 1 4 204
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour of
rain equivalent.
For model runs with prognostic graupel, this snowfall diagnostic will
include contributions from graupel. Do not add diagnostic (1 4 212) to
this value in any analysis or otherwise your answers will be wrong as
the graupel will be counted twice. For snow amount without graupel, please
use diagnostic (1 4 304)
[lbproc=128]
 longitude latitude time kg m-2 s-1 atmos-physics embargoed HadREM-CP4A_Amon_mappings.cfg
prsn Amon 
m01s04i204LARGE SCALE SNOWFALL RATE    KG/M2/S
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour.
------------------------------------------------
Item 1 4 204
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour of
rain equivalent.
For model runs with prognostic graupel, this snowfall diagnostic will
include contributions from graupel. Do not add diagnostic (1 4 212) to
this value in any analysis or otherwise your answers will be wrong as
the graupel will be counted twice. For snow amount without graupel, please
use diagnostic (1 4 304)
[lbproc=128]
commentIncludes graupel
 longitude latitude time kg m-2 s-1 atmos-physics embargoed HadREM-CP4A_Amon_mappings.cfg
sbl Amon 
m01s03i298SUBLIM. SURFACE (GBM) : RATE KG/M2/S
GridBox Mean rate of sublimation from the surface (kg/m2/s).

On land points, this is the gridbox mean of the rate of sublimation from the
tiled surface types, weighted by the associated tile fraction. The sublimation
is from overlying snow, with a different rate for each surface type; these
can be output individually by diagnostic
(1, 3, 331): SUBLIMATION MOISTURE FLUX ON TILES.

On ocean points it is the sublimation from sea-ice, if present, weighted by
the fraction of the ocean covered by ice.

On coastal points which are part-land and part-ocean, the sublimation
from each is combined, weighted by land / ocean fraction as appropriate.
[lbproc=128]
 longitude latitude time kg m-2 s-1 boundary-layer embargoed HadREM-CP4A_Amon_mappings.cfg
uas Amon 
m01s03i22510 METRE WIND U-COMP         B GRID
Estimate of the westerly component of horizontal wind at 10m.
Calculated by integrating the similarity equations from the surface
to 10m (U_0 = westerly component of surface current if over sea,
0.0 if over land).

Available on all timesteps.
[lbproc=128]
commentThis data is written on the Arakawa B grid rather than the C grid as is conventional with UM model output
 longitude latitude height10m time m s-1 boundary-layer ok HadREM-CP4A_Amon_mappings.cfg
vas Amon 
m01s03i22610 METRE WIND V-COMP         B GRID
Estimate of the southerly component of horizontal wind at 10m.
Calculated by integrating the similarity equations from the surface
to 10m (V_0 = southerly component of surface current if over sea,
0.0 if over land).

Available on all timesteps.
[lbproc=128]
commentThis data is written on the Arakawa B grid rather than the C grid as is conventional with UM model output
 longitude latitude height10m time m s-1 boundary-layer ok HadREM-CP4A_Amon_mappings.cfg
ci CF3hr 
m01s05i269DEEP CONVECTION INDICATOR
Deep convection indicator, set to 1.0 if deep convection occurs and 0.0 if not.
Note as convection is often called more than once per model timestep this may
take a value between 0.0 and 1.0 if rediagnosis is called for every convection
sub-step.
[lbproc=0]
commentFraction of time that convection occurs in the grid cell .
 longitude latitude time1 1.0 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
clc CF3hr 
m01s02i317CONVECTIVE CORE 3D CLOUD FRACTION
Three-dimensional distribution of convective core cloud fraction. This is
diagnosed when McICA is used and convective cores are seen by radiation.
[lbproc=0]
 longitude latitude alevel time1 1 - ok HadREM-CP4A_CF3hr_mappings.cfg
clic CF3hr 
m01s02i319GRIDBOX CONVECTIVE CORE Qcf    KG/KG
Three-dimensional distribution of gridbox average ice mixing ratio of the
convective cloud core. This is diagnosed when McICA is used and convective
cores are seen by radiation.
[lbproc=0]
 longitude latitude alevel time1 1 - ok HadREM-CP4A_CF3hr_mappings.cfg
clis CF3hr 
m01s02i309GRIDBOX LSC Qcf IN RADIATION   KG/KG
Grid box average of large-scale cloud ice water mixing ratio
[lbproc=0] - 
m01s02i319GRIDBOX CONVECTIVE CORE Qcf    KG/KG
Three-dimensional distribution of gridbox average ice mixing ratio of the
convective cloud core. This is diagnosed when McICA is used and convective
cores are seen by radiation.
[lbproc=0]
 longitude latitude alevel time1 1 - ok HadREM-CP4A_CF3hr_mappings.cfg
clivi CF3hr 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]
 longitude latitude time1 kg m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
cls CF3hr 
m01s02i312GRIDBOX LIQ LSC CF IN RADIATION
Grid box average of large-scale liquid cloud fraction
[lbproc=0] + 
m01s02i313GRIDBOX ICE LSC CF IN RADIATION
Grid box average of large-scale ice cloud fraction
[lbproc=0] - 
m01s02i317CONVECTIVE CORE 3D CLOUD FRACTION
Three-dimensional distribution of convective core cloud fraction. This is
diagnosed when McICA is used and convective cores are seen by radiation.
[lbproc=0]
 longitude latitude alevel time1 1 - ok HadREM-CP4A_CF3hr_mappings.cfg
clt CF3hr 
m01s02i204TOTAL CLOUD AMOUNT IN LW RADIATION
The total cloud amount seen in LW radiation. This diagnostic is caclulated
in a manner consistent with the assumption made about the overlapping of
cloud in different layers in the vertical: overlaps are treated
consistently in the SW and LW, so this diagnostic represents cloud in
both spectral regions.

Calculations are made only on radiation timesteps.
[lbproc=0]
commentfor the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.
 longitude latitude time1 1 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
clwc CF3hr 
m01s02i318GRIDBOX CONVECTIVE CORE Qcl    KG/KG
Three-dimensional distribution of gridbox average liquid mixing ratio of the
convective cloud core. This is diagnosed when McICA is used and convective
cores are seen by radiation.
[lbproc=0]
 longitude latitude alevel time1 1 - ok HadREM-CP4A_CF3hr_mappings.cfg
clws CF3hr 
m01s02i308GRIDBOX LSC Qcl IN RADIATION   KG/KG
Grid box average of large-scale cloud liquid water mixing ratio
[lbproc=0] - 
m01s02i318GRIDBOX CONVECTIVE CORE Qcl    KG/KG
Three-dimensional distribution of gridbox average liquid mixing ratio of the
convective cloud core. This is diagnosed when McICA is used and convective
cores are seen by radiation.
[lbproc=0]
 longitude latitude alevel time1 1 - ok HadREM-CP4A_CF3hr_mappings.cfg
clwvi CF3hr 
m01s02i391LARGE SCALE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2308) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]+
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]
commentmass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.
 longitude latitude time1 kg m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
evspsbl CF3hr 
m01s03i223SURFACE TOTAL MOISTURE FLUX  KG/M2/S
Moisture flux profile, on model half levels, with the first
value being the surface moisture flux.

Available on all timesteps.
[lbproc=0]
 longitude latitude time1 kg m-2 s-1 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
hfls CF3hr 
m01s03i234[lbproc=0]
 longitude latitude time1 W m-2 boundary-layer embargoed HadREM-CP4A_CF3hr_mappings.cfg
hfss CF3hr 
m01s03i217SURFACE SENSIBLE  HEAT FLUX     W/M2
Sensible heat flux at the surface, single level field.
Available on all timesteps.
[lbproc=0]
 longitude latitude time1 W m-2 boundary-layer embargoed HadREM-CP4A_CF3hr_mappings.cfg
hurs CF3hr 
m01s03i245RELATIVE HUMIDITY AT 1.5M
Calculated from 1.5m q and saturated specific humidity at 1.5m T.

Available on all timesteps.
[lbproc=0]
 longitude latitude height2m time1 % - embargoed HadREM-CP4A_CF3hr_mappings.cfg
pfull CF3hr 
m01s00i408[lbproc=0]
 longitude latitude alevel time1 Pa - embargoed HadREM-CP4A_CF3hr_mappings.cfg
phalf CF3hr 
m01s00i407[lbproc=0]
 longitude latitude alevhalf time1 Pa - embargoed HadREM-CP4A_CF3hr_mappings.cfg
pr CF3hr 
m01s05i216TOTAL PRECIPITATION RATE     KG/M2/S
Total precipitation rate at the surface in kg/m2/s.
This is the sum of the large scale and convective rainfall and snowfall
at the surface.e.
[lbproc=0]
commentat surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective)
 longitude latitude time1 kg m-2 s-1 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
prc CF3hr 
m01s05i205CONVECTIVE RAINFALL RATE     KG/M2/S
Convective rainfall rate at the surface in kg/m2/s.
If several model sweeps of convection per model timestep, this gives the
mean value.
[lbproc=0]+
m01s05i206CONVECTIVE SNOWFALL RATE     KG/M2/S
Convective snowfall rate at the surface in kg/m2/s.
If several model sweeps of convection per model timestep, this gives the
mean value.
[lbproc=0]
commentat surface; includes both liquid and solid phases.
 longitude latitude time1 kg m-2 s-1 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
prsn CF3hr 
m01s05i215TOTAL SNOWFALL RATE: LS+CONV KG/M2/S
Total snowfall rate at the surface in kg/m2/s.
This is the sum of the large scale and convective snowfall at the surface.
[lbproc=0]
commentat surface; includes precipitation of all forms of water in the solid phase
 longitude latitude time1 kg m-2 s-1 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
prsnc CF3hr 
m01s05i228NOMINAL 3D CONVECTIVE SNOWFALL RATE
Name: NOMINAL 3D CONVECTIVE SNOWFALL RATE
Rate at which convective snowfall is falling through the model layer
      in kg/m2/sec
[lbproc=0]
 longitude latitude alevhalf time1 kg m-2 s-1 cftables ok HadREM-CP4A_CF3hr_mappings.cfg
prw CF3hr 
m01s30i461TOTAL COLUMN Q (WATER VAPOUR PATH)
Column integral of atmospheric mass * specific humidity.
Units are kg m^-2
[lbproc=0]
commentvertically integrated through the atmospheric column
 longitude latitude time1 kg m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
ps CF3hr 
m01s00i409[lbproc=0]
 longitude latitude time1 Pa - ok HadREM-CP4A_CF3hr_mappings.cfg
psl CF3hr 
m01s16i222[lbproc=0]
commentSea level pressure
 longitude latitude time1 Pa - embargoed HadREM-CP4A_CF3hr_mappings.cfg
reffclic CF3hr 
0.5 * 
m01s02i398L-S ICE WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale ice cloud, weighted by
large-scale ice cloud fraction (2.313). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=0] / 
m01s02i313GRIDBOX ICE LSC CF IN RADIATION
Grid box average of large-scale ice cloud fraction
[lbproc=0]
 longitude latitude alevel time1 m cftables ok HadREM-CP4A_CF3hr_mappings.cfg
reffclis CF3hr 
0.5 * 
m01s02i398L-S ICE WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale ice cloud, weighted by
large-scale ice cloud fraction (2.313). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=0] / 
m01s02i313GRIDBOX ICE LSC CF IN RADIATION
Grid box average of large-scale ice cloud fraction
[lbproc=0]
 longitude latitude alevel time1 m cftables ok HadREM-CP4A_CF3hr_mappings.cfg
reffclwc CF3hr 
m01s02i397L-S LIQ WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale liquid cloud, weighted by
large-scale liquid cloud fraction (2.312). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=0] / 
m01s02i312GRIDBOX LIQ LSC CF IN RADIATION
Grid box average of large-scale liquid cloud fraction
[lbproc=0]
 longitude latitude alevel time1 m cftables ok HadREM-CP4A_CF3hr_mappings.cfg
reffclws CF3hr 
m01s02i397L-S LIQ WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale liquid cloud, weighted by
large-scale liquid cloud fraction (2.312). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=0] / 
m01s02i312GRIDBOX LIQ LSC CF IN RADIATION
Grid box average of large-scale liquid cloud fraction
[lbproc=0]
 longitude latitude alevel time1 m cftables ok HadREM-CP4A_CF3hr_mappings.cfg
rlds CF3hr 
m01s02i207DOWNWARD LW RAD FLUX: SURFACE
The total downward flux of LW radiation at the ground or ocean surface.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rldscs CF3hr 
m01s02i208CLEAR-SKY (II) DOWN SURFACE LW FLUX
The total downward flux of LW radiation at the ground or ocean surface
neglecting the radiative effects of all clouds in the atmosphere.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rlus CF3hr 
m01s02i207DOWNWARD LW RAD FLUX: SURFACE
The total downward flux of LW radiation at the ground or ocean surface.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=0]-
m01s02i201NET DOWN SURFACE LW RAD FLUX
The net downward (total downward minus upward) LW radiative flux at the
surface (ground or ocean surface). The diagnostic is available
only on LW radiation timesteps.
[lbproc=0]+
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=0]-
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rlut CF3hr 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=0]
commentat the top of the atmosphere (to be compared with satellite measurements)
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rlutcs CF3hr 
m01s02i206CLEAR-SKY (II) UPWARD LW FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere neglecting
the radiative effects of all clouds in the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=0]+
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=0]-
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rsds CF3hr 
m01s01i235TOTAL DOWNWARD SURFACE SW FLUX
The total downward SW radiative flux at the surface (ground
or ocean surface). The diagnostic is available only on SW radiation
timesteps.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rsdscs CF3hr 
m01s01i210CLEAR-SKY (II) DOWN SURFACE SW FLUX
The downward clear-sky SW radiative flux at the surface.
This is an actual downward flux, not a net flux. It is calculated
using method II for clear-sky fluxes; that is at every
grid-point the radiative flux is calculated using exactly
the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rsdt CF3hr 
m01s01i207INCOMING SW RAD FLUX (TOA): ALL TSS
The incoming SW radiative flux from the sun. The diagnostic
is calculated for all timesteps.
[lbproc=0]
commentat the top of the atmosphere
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rsus CF3hr 
m01s01i235TOTAL DOWNWARD SURFACE SW FLUX
The total downward SW radiative flux at the surface (ground
or ocean surface). The diagnostic is available only on SW radiation
timesteps.
[lbproc=0]-
m01s01i201NET DOWN SURFACE SW FLUX: SW TS ONLY
The net downward (total downward minus upward) radiative SW flux at the
surface (ground or ocean surface). The diagnostic is available
only on SW radiation timesteps.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean surface albedo
downward flux at the surface (001,001,235) should be diagnosed. The
mean upward flux is then the difference between the former and the
latter, and the ratio of the mean upward to the mean downward flux
gives an appropriate mean albedo. When calculating the albedo of an
extended region the upward and downward fluxes over that region should
be averaged first and then ratioed: it would be incorrect to calculate
the albedo at each individual point and take the mean of the resulting
fields as this would distort the proper flux-weighting of the
diagnostic.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rsuscs CF3hr 
m01s01i211CLEAR-SKY (II) UP SURFACE SW FLUX
The upward clear-sky SW radiative flux at the surface.
It is calculated using method II for clear-sky fluxes; that is
at every grid-point the radiative flux is calculated using
exactly the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean clear-sky
surface albedo the total clear-sky downward flux at the surface
should be diagnosed. These fields should be meaned in space and time
as required and then ratioed to give an albedo: it would be incorrect
to average an albedo itself as this would distort the proper
flux-weighting of the diagnostic.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rsut CF3hr 
m01s01i208OUTGOING SW RAD FLUX (TOA)
The outgoing SW radiative flux at the top of the atmosphere.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean albedo at a
point you should diagnose the incoming and outgoing SW radiative fluxes
the appropriate time means and take the ratio of the latter to the
former. To diagnose a spatially meaned albedo you should mean the
incoming and outgoing SW fluxes over the region in question before
taking the ratio. Note especially when using a graphics package to
plot a map of the albedo that if the package has a facility for
generating the mean of the plotted field automatically the number
you get will not be the actual mean albedo of the region as defined
from the meaned fluxes.
[lbproc=0]
commentat the top of the atmosphere
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rsutcs CF3hr 
m01s01i209CLEAR-SKY (II) UPWARD SW FLUX (TOA)
The outgoing clear-sky SW radiative flux at the top of the
atmosphere. This is calculated as type II; that is at every
grid-point the radiative flux is calculated using exactly
the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean clear-sky albedo
at a point you should diagnose the incoming and outgoing clear-sky
SW radiative fluxes at the top of the atmosphere ((001,001,207) and
the latter to the former. To diagnose a spatially meaned albedo you
should mean the incoming and outgoing SW fluxes over the region in
question before taking the ratio. Note especially when using a
graphics package to plot a map of the albedo that if the package has
a facility for generating the mean of the plotted field automatically
the number you get will not be the actual mean albedo of the region as
defined from the meaned fluxes.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
rtmt CF3hr 
m01s01i207INCOMING SW RAD FLUX (TOA): ALL TSS
The incoming SW radiative flux from the sun. The diagnostic
is calculated for all timesteps.
[lbproc=0]-
m01s01i208OUTGOING SW RAD FLUX (TOA)
The outgoing SW radiative flux at the top of the atmosphere.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean albedo at a
point you should diagnose the incoming and outgoing SW radiative fluxes
the appropriate time means and take the ratio of the latter to the
former. To diagnose a spatially meaned albedo you should mean the
incoming and outgoing SW fluxes over the region in question before
taking the ratio. Note especially when using a graphics package to
plot a map of the albedo that if the package has a facility for
generating the mean of the plotted field automatically the number
you get will not be the actual mean albedo of the region as defined
from the meaned fluxes.
[lbproc=0]-
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=0]
commenti.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere.
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
sbl CF3hr 
m01s03i298SUBLIM. SURFACE (GBM) : RATE KG/M2/S
GridBox Mean rate of sublimation from the surface (kg/m2/s).

On land points, this is the gridbox mean of the rate of sublimation from the
tiled surface types, weighted by the associated tile fraction. The sublimation
is from overlying snow, with a different rate for each surface type; these
can be output individually by diagnostic
(1, 3, 331): SUBLIMATION MOISTURE FLUX ON TILES.

On ocean points it is the sublimation from sea-ice, if present, weighted by
the fraction of the ocean covered by ice.

On coastal points which are part-land and part-ocean, the sublimation
from each is combined, weighted by land / ocean fraction as appropriate.
[lbproc=0]
 longitude latitude time1 kg m-2 s-1 boundary-layer embargoed HadREM-CP4A_CF3hr_mappings.cfg
sci CF3hr 
m01s05i270SHALLOW CONVECTION INDICATOR
Type indicator for diagnosed shallow convection. Similar to boundary layer type indicators (3305 to 3310).
Set to 1.0 if true, 0.0 if not. Non-exclusive: shallow is a subset of total convection (3309+3310)

Available on all timesteps.
[lbproc=0]
commentFraction of time that shallow convection occurs in the grid cell.
 longitude latitude time1 1.0 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
sfcWind CF3hr 
m01s03i23010 METRE WIND SPEED ON C GRID
No help entry available.
[lbproc=0]
commentThis is the mean of the speed, not the speed computed from the mean u and v components of wind
 longitude latitude height10m time1 m s-1 - embargoed HadREM-CP4A_CF3hr_mappings.cfg
ta CF3hr 
m01s30i111[lbproc=0]
 longitude latitude alevel time1 K cftables embargoed HadREM-CP4A_CF3hr_mappings.cfg
tauu CF3hr 
m01s03i460X-COMP SURFACE BL STRESS
The x component of the surface stress in N/M2. This is included to allow
correct diagnosis and labelling of surface stress without the need for a STASH work
around.
[lbproc=0]
 longitude latitude time1 Pa - embargoed HadREM-CP4A_CF3hr_mappings.cfg
tauv CF3hr 
m01s03i461Y-COMP SURFACE BL STRESS
The y component of the surface stress in N/M2. This is included to allow
correct diagnosis and labelling of surface stress without the need for a STASH work
around.
[lbproc=0]
 longitude latitude time1 Pa - embargoed HadREM-CP4A_CF3hr_mappings.cfg
ts CF3hr 
m01s00i024[lbproc=0]
 longitude latitude time1 K - ok HadREM-CP4A_CF3hr_mappings.cfg
hus CFday 
m01s00i010[lbproc=128]
 longitude latitude alevel time 1 cftables ok HadREM-CP4A_CFday_mappings.cfg
ta CFday 
m01s30i111[lbproc=128]
 longitude latitude alevel time K cftables ok HadREM-CP4A_CFday_mappings.cfg
ua CFday 
m01s00i002[lbproc=128]
 longitude latitude alevel time m s-1 cftables ok HadREM-CP4A_CFday_mappings.cfg
va CFday 
m01s00i003[lbproc=128]
 longitude latitude alevel time m s-1 cftables ok HadREM-CP4A_CFday_mappings.cfg
wap CFday 
m01s30i008OMEGA ON THETA LEVELS (C GRID)
This is an intermediate stage of the calculation of omega on pressure
levels, where rho is interpolated to model theta levels. Note that the
top theta level is set equal to the top rho level.

Units: Pa/s
[lbproc=128]
 longitude latitude alevel time Pa s-1 cftables ok HadREM-CP4A_CFday_mappings.cfg
zg CFday 
m01s16i201[lbproc=128]
 longitude latitude alevel time m cftables ok HadREM-CP4A_CFday_mappings.cfg
hus CFmon 
m01s00i010[lbproc=128]
 longitude latitude alevel time 1 cftables ok HadREM-CP4A_CFmon_mappings.cfg
ta CFmon 
m01s30i111[lbproc=128]
 longitude latitude alevel time K cftables ok HadREM-CP4A_CFmon_mappings.cfg
ci CFsubhr 
m01s05i269DEEP CONVECTION INDICATOR
Deep convection indicator, set to 1.0 if deep convection occurs and 0.0 if not.
Note as convection is often called more than once per model timestep this may
take a value between 0.0 and 1.0 if rediagnosis is called for every convection
sub-step.
[lbproc=0]
 site time1 1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
cl CFsubhr 
m01s02i261[lbproc=0]
 alevel site time1 1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
cli CFsubhr 
m01s02i309GRIDBOX LSC Qcf IN RADIATION   KG/KG
Grid box average of large-scale cloud ice water mixing ratio
[lbproc=0]
 alevel site time1 kg kg-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
clivi CFsubhr 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]
 site time1 kg m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
clt CFsubhr 
m01s02i204TOTAL CLOUD AMOUNT IN LW RADIATION
The total cloud amount seen in LW radiation. This diagnostic is caclulated
in a manner consistent with the assumption made about the overlapping of
cloud in different layers in the vertical: overlaps are treated
consistently in the SW and LW, so this diagnostic represents cloud in
both spectral regions.

Calculations are made only on radiation timesteps.
[lbproc=0]
 site time1 1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
clw CFsubhr 
m01s02i308GRIDBOX LSC Qcl IN RADIATION   KG/KG
Grid box average of large-scale cloud liquid water mixing ratio
[lbproc=0]
 alevel site time1 kg kg-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
clwvi CFsubhr 
m01s02i391LARGE SCALE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2308) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0] + 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]
 site time1 kg m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
evspsbl CFsubhr 
m01s03i223SURFACE TOTAL MOISTURE FLUX  KG/M2/S
Moisture flux profile, on model half levels, with the first
value being the surface moisture flux.

Available on all timesteps.
[lbproc=0]
 site time1 kg m-2 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
hfls CFsubhr 
m01s03i234[lbproc=0]
commentIncludes both evaporation and sublimation.
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
hfss CFsubhr 
m01s03i217SURFACE SENSIBLE  HEAT FLUX     W/M2
Sensible heat flux at the surface, single level field.
Available on all timesteps.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
hur CFsubhr 
m01s30i113RH on model levels at end timestep
Relative humidity on model levels at the end of timestep.
[lbproc=0]
 alevel site time1 % - ok HadREM-CP4A_CFsubhr_mappings.cfg
hurs CFsubhr 
m01s03i245RELATIVE HUMIDITY AT 1.5M
Calculated from 1.5m q and saturated specific humidity at 1.5m T.

Available on all timesteps.
[lbproc=0]
 site height2m time1 % - ok HadREM-CP4A_CFsubhr_mappings.cfg
hus CFsubhr 
m01s00i010[lbproc=0]
 alevel site time1 1 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
huss CFsubhr 
m01s03i237SPECIFIC HUMIDITY  AT 1.5M
Estimate of atmospheric specific humidity (g/kg) at 1.5m.
Calculated by integrating the similarity equations from the
surface to 1.5m (surface value taken as saturated specific
humidity at the surface temperature).

Available on all timesteps.
[lbproc=0]
 site height2m time1 1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
mc CFsubhr 
(
m01s05i250UPDRAUGHT MASS FLUX (Pa/s)
Updraught mass flux in Pascals/sed

Available on all timesteps.
[lbproc=0] - 
m01s05i251DOWNDRAUGHT MASS FLUX (PA/S)
Downdraught mass flux in Pascals/sed

Available on all timesteps.
[lbproc=0]) / 
ACCELERATION_DUE_TO_EARTH_GRAVITY9.80665
commentThis is submitted on full levels to avoid vertical interpolation of instantaneous data.
 alevhalf site time1 kg m-2 s-1 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
pfull CFsubhr 
m01s00i408[lbproc=0]
 alevel site time1 Pa - ok HadREM-CP4A_CFsubhr_mappings.cfg
phalf CFsubhr 
m01s00i407[lbproc=0]
 alevhalf site time1 Pa - ok HadREM-CP4A_CFsubhr_mappings.cfg
pr CFsubhr 
m01s05i216TOTAL PRECIPITATION RATE     KG/M2/S
Total precipitation rate at the surface in kg/m2/s.
This is the sum of the large scale and convective rainfall and snowfall
at the surface.e.
[lbproc=0]
 site time1 kg m-2 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
prc CFsubhr 
m01s05i205CONVECTIVE RAINFALL RATE     KG/M2/S
Convective rainfall rate at the surface in kg/m2/s.
If several model sweeps of convection per model timestep, this gives the
mean value.
[lbproc=0] + 
m01s05i206CONVECTIVE SNOWFALL RATE     KG/M2/S
Convective snowfall rate at the surface in kg/m2/s.
If several model sweeps of convection per model timestep, this gives the
mean value.
[lbproc=0]
 site time1 kg m-2 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
prsn CFsubhr 
m01s05i215TOTAL SNOWFALL RATE: LS+CONV KG/M2/S
Total snowfall rate at the surface in kg/m2/s.
This is the sum of the large scale and convective snowfall at the surface.
[lbproc=0]
 site time1 kg m-2 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
prw CFsubhr 
m01s30i461TOTAL COLUMN Q (WATER VAPOUR PATH)
Column integral of atmospheric mass * specific humidity.
Units are kg m^-2
[lbproc=0]
 site time1 kg m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
ps CFsubhr 
m01s00i409[lbproc=0]
 site time1 Pa - ok HadREM-CP4A_CFsubhr_mappings.cfg
psl CFsubhr 
m01s16i222[lbproc=0]
 site time1 Pa - ok HadREM-CP4A_CFsubhr_mappings.cfg
rld CFsubhr 
correct_multilevel_metadata(
m01s02i218DOWNWARD LW FLUX ON LEVELS
Downwards LW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
commentPhysically, the radiation scheme used in this model ignores any atmosphere above the top of the model, and treats all solar emission as SW, implying that this field should be zero at the top of the model. However, when solving in the presence of scattering, rounding error leaves non-zero values, both positive and negative, of magnitude far too small to matter.
 alevhalf site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rldcs CFsubhr 
correct_multilevel_metadata(
m01s02i220CLEAR-SKY DOWNWARD LW FLUX ON LEVELS
Clear-sky downwards LW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
commentPhysically, the radiation scheme used in this model ignores any atmosphere above the top of the model, and treats all solar emission as SW, implying that this field should be zero at the top of the model. However, when solving in the presence of scattering, rounding error leaves non-zero values, both positive and negative, of magnitude far too small to matter.
 alevhalf site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rlds CFsubhr 
m01s02i207DOWNWARD LW RAD FLUX: SURFACE
The total downward flux of LW radiation at the ground or ocean surface.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rldscs CFsubhr 
m01s02i208CLEAR-SKY (II) DOWN SURFACE LW FLUX
The total downward flux of LW radiation at the ground or ocean surface
neglecting the radiative effects of all clouds in the atmosphere.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rlus CFsubhr 
m01s02i207DOWNWARD LW RAD FLUX: SURFACE
The total downward flux of LW radiation at the ground or ocean surface.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=0] - 
m01s02i201NET DOWN SURFACE LW RAD FLUX
The net downward (total downward minus upward) LW radiative flux at the
surface (ground or ocean surface). The diagnostic is available
only on LW radiation timesteps.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rlu CFsubhr 
correct_multilevel_metadata(
m01s02i217UPWARD LW FLUX ON LEVELS
Upwards LW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 alevhalf site time1 W m-2 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
rlucs CFsubhr 
correct_multilevel_metadata(
m01s02i219CLEAR-SKY UPWARD LW FLUX ON LEVELS
Clear-sky upwards LW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 alevhalf site time1 W m-2 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
rlut CFsubhr 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=0]
 site time1 W m-2 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
rlutcs CFsubhr 
m01s02i206CLEAR-SKY (II) UPWARD LW FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere neglecting
the radiative effects of all clouds in the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsd CFsubhr 
correct_multilevel_metadata(
m01s01i218DOWNWARD SW FLUX ON LEVELS
Downwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 alevhalf site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsdcs CFsubhr 
correct_multilevel_metadata(
m01s01i220CLEAR-SKY DOWNWARD SW FLUX ON LEVELS
Clear-sky downwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 alevhalf site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsds CFsubhr 
m01s01i235TOTAL DOWNWARD SURFACE SW FLUX
The total downward SW radiative flux at the surface (ground
or ocean surface). The diagnostic is available only on SW radiation
timesteps.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsdscs CFsubhr 
m01s01i210CLEAR-SKY (II) DOWN SURFACE SW FLUX
The downward clear-sky SW radiative flux at the surface.
This is an actual downward flux, not a net flux. It is calculated
using method II for clear-sky fluxes; that is at every
grid-point the radiative flux is calculated using exactly
the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsdt CFsubhr 
m01s01i207INCOMING SW RAD FLUX (TOA): ALL TSS
The incoming SW radiative flux from the sun. The diagnostic
is calculated for all timesteps.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsu CFsubhr 
correct_multilevel_metadata(
m01s01i217UPWARD SW FLUX ON LEVELS
Upwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 alevhalf site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsucs CFsubhr 
correct_multilevel_metadata(
m01s01i219CLEAR-SKY UPWARD SW FLUX ON LEVELS
Clear-sky upwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 alevhalf site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsus CFsubhr 
m01s01i235TOTAL DOWNWARD SURFACE SW FLUX
The total downward SW radiative flux at the surface (ground
or ocean surface). The diagnostic is available only on SW radiation
timesteps.
[lbproc=0] - 
m01s01i201NET DOWN SURFACE SW FLUX: SW TS ONLY
The net downward (total downward minus upward) radiative SW flux at the
surface (ground or ocean surface). The diagnostic is available
only on SW radiation timesteps.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean surface albedo
downward flux at the surface (001,001,235) should be diagnosed. The
mean upward flux is then the difference between the former and the
latter, and the ratio of the mean upward to the mean downward flux
gives an appropriate mean albedo. When calculating the albedo of an
extended region the upward and downward fluxes over that region should
be averaged first and then ratioed: it would be incorrect to calculate
the albedo at each individual point and take the mean of the resulting
fields as this would distort the proper flux-weighting of the
diagnostic.
[lbproc=0]
 site time1 W m-2 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
rsuscs CFsubhr 
m01s01i211CLEAR-SKY (II) UP SURFACE SW FLUX
The upward clear-sky SW radiative flux at the surface.
It is calculated using method II for clear-sky fluxes; that is
at every grid-point the radiative flux is calculated using
exactly the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean clear-sky
surface albedo the total clear-sky downward flux at the surface
should be diagnosed. These fields should be meaned in space and time
as required and then ratioed to give an albedo: it would be incorrect
to average an albedo itself as this would distort the proper
flux-weighting of the diagnostic.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsut CFsubhr 
m01s01i208OUTGOING SW RAD FLUX (TOA)
The outgoing SW radiative flux at the top of the atmosphere.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean albedo at a
point you should diagnose the incoming and outgoing SW radiative fluxes
the appropriate time means and take the ratio of the latter to the
former. To diagnose a spatially meaned albedo you should mean the
incoming and outgoing SW fluxes over the region in question before
taking the ratio. Note especially when using a graphics package to
plot a map of the albedo that if the package has a facility for
generating the mean of the plotted field automatically the number
you get will not be the actual mean albedo of the region as defined
from the meaned fluxes.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rsutcs CFsubhr 
m01s01i209CLEAR-SKY (II) UPWARD SW FLUX (TOA)
The outgoing clear-sky SW radiative flux at the top of the
atmosphere. This is calculated as type II; that is at every
grid-point the radiative flux is calculated using exactly
the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean clear-sky albedo
at a point you should diagnose the incoming and outgoing clear-sky
SW radiative fluxes at the top of the atmosphere ((001,001,207) and
the latter to the former. To diagnose a spatially meaned albedo you
should mean the incoming and outgoing SW fluxes over the region in
question before taking the ratio. Note especially when using a
graphics package to plot a map of the albedo that if the package has
a facility for generating the mean of the plotted field automatically
the number you get will not be the actual mean albedo of the region as
defined from the meaned fluxes.
[lbproc=0]
 site time1 W m-2 - ok HadREM-CP4A_CFsubhr_mappings.cfg
rtmt CFsubhr 
m01s01i207INCOMING SW RAD FLUX (TOA): ALL TSS
The incoming SW radiative flux from the sun. The diagnostic
is calculated for all timesteps.
[lbproc=0] - 
m01s01i208OUTGOING SW RAD FLUX (TOA)
The outgoing SW radiative flux at the top of the atmosphere.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean albedo at a
point you should diagnose the incoming and outgoing SW radiative fluxes
the appropriate time means and take the ratio of the latter to the
former. To diagnose a spatially meaned albedo you should mean the
incoming and outgoing SW fluxes over the region in question before
taking the ratio. Note especially when using a graphics package to
plot a map of the albedo that if the package has a facility for
generating the mean of the plotted field automatically the number
you get will not be the actual mean albedo of the region as defined
from the meaned fluxes.
[lbproc=0] - 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=0]
 site time1 W m-2 - embargoed HadREM-CP4A_CFsubhr_mappings.cfg
sbl CFsubhr 
m01s03i298SUBLIM. SURFACE (GBM) : RATE KG/M2/S
GridBox Mean rate of sublimation from the surface (kg/m2/s).

On land points, this is the gridbox mean of the rate of sublimation from the
tiled surface types, weighted by the associated tile fraction. The sublimation
is from overlying snow, with a different rate for each surface type; these
can be output individually by diagnostic
(1, 3, 331): SUBLIMATION MOISTURE FLUX ON TILES.

On ocean points it is the sublimation from sea-ice, if present, weighted by
the fraction of the ocean covered by ice.

On coastal points which are part-land and part-ocean, the sublimation
from each is combined, weighted by land / ocean fraction as appropriate.
[lbproc=0]
 site time1 kg m-2 s-1 boundary-layer ok HadREM-CP4A_CFsubhr_mappings.cfg
sci CFsubhr 
m01s05i270SHALLOW CONVECTION INDICATOR
Type indicator for diagnosed shallow convection. Similar to boundary layer type indicators (3305 to 3310).
Set to 1.0 if true, 0.0 if not. Non-exclusive: shallow is a subset of total convection (3309+3310)

Available on all timesteps.
[lbproc=0]
 site time1 1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
sfcWind CFsubhr 
m01s03i23010 METRE WIND SPEED ON C GRID
No help entry available.
[lbproc=0]
commentThis is the mean of the speed, not the speed computed from the mean u and v components of wind.
 site height10m time1 m s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
ta CFsubhr 
m01s30i111[lbproc=0]
 alevel site time1 K cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
tas CFsubhr 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=0]
 site height2m time1 K - ok HadREM-CP4A_CFsubhr_mappings.cfg
tauu CFsubhr 
m01s03i460X-COMP SURFACE BL STRESS
The x component of the surface stress in N/M2. This is included to allow
correct diagnosis and labelling of surface stress without the need for a STASH work
around.
[lbproc=0]
 site time1 Pa - ok HadREM-CP4A_CFsubhr_mappings.cfg
tauv CFsubhr 
m01s03i461Y-COMP SURFACE BL STRESS
The y component of the surface stress in N/M2. This is included to allow
correct diagnosis and labelling of surface stress without the need for a STASH work
around.
[lbproc=0]
 site time1 Pa - ok HadREM-CP4A_CFsubhr_mappings.cfg
tnhus CFsubhr 
m01s30i182Q TOTAL INCREMENT ON MODEL LEVELS
Total increment to prognostic q over a model timestep.
Units kg/kg/timestep.
[lbproc=0] / ATMOS_TIMESTEP
 alevel site time1 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
tnhusa CFsubhr 
(
m01s12i182Q INCR: advect      kg/kg/timestep
Increments from section 12 (12181-12187)  Semi-lagrangian advection.

Note the increments from the semi-lagrangain advection include
both the basic advection increment ie the increment to q say purely based on
the start of timestep value and the calculation to determine the new value
at the location, and  a part due to the advection of the sum of the increments
to q (dq) calculated by atmos_phys1. The part due to the advection of the
increments is usually much smaller. All increments have units of change in
the field per timestep.
[lbproc=0] + 
m01s12i382Q INC DUE TO ADV CORRECTION
Increment to q due to corrections to advection scheme
Units kg/kg/timestep.
[lbproc=0])
/ ATMOS_TIMESTEP
 alevel site time1 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
tnhusc CFsubhr 
m01s05i162SPECIFIC HUMIDITY INCR: convection
Specific humidity increments from convection only in kg/kg per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=0] / ATMOS_TIMESTEP
 alevel site time1 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
tnhusmp CFsubhr 
(
m01s01i182SPECIFIC HUMIDITY INCR: swrad scheme
This is the increment across the shortwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0] + 
m01s02i182SPECIFIC HUMIDITY INCR: lwrad scheme
This is the increment across the longwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0]
+ 
m01s03i182SPECIFIC HUMIDITY INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0] + 
m01s04i142SPECIFIC HUMIDITY INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + 
m01s04i182SPECIFIC HUMIDITY INCR: ls rain
Vapour increment from the large-scale precipitation scheme and the
balancing cloud scheme call.
This is the gridbox mean change in specific humidity (in kg of vapour
per kg of air) in each gridbox solely as a result of the large-scale
precipitation scheme.
[lbproc=0]
+ 
m01s04i982Q     INCR: methane oxidation
Total increment to specific humidity from methane oxidation in
kg/kg per model physics time step.
[lbproc=0] + 
m01s05i182Q     INCR: convection +(PC2 inhom)
Total increment to specific humidity from the convection section in
kg/kg per model physics time step. This may include increments from
PC2 inhomogeneous forcing as well as convection if PC2 is switched on.

Convection can have several sweeps per model timestep, this diagnostic
holds the total increment. Available every model physics timestep.
[lbproc=0] + 
m01s16i162SPECIFIC HUMIDITY INCR: pc2 initiali
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]
+ 
m01s16i182SPECIFIC HUMIDITY INCR: pc2 pressure
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + 
m01s35i025Q TENDENCY SPT INCREMENT
Increment of q done by the SPT (kg/kg).
[lbproc=0] ) / ATMOS_TIMESTEP
 alevel site time1 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
tnhusscpbl CFsubhr 
(
m01s01i182SPECIFIC HUMIDITY INCR: swrad scheme
This is the increment across the shortwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0] + 
m01s02i182SPECIFIC HUMIDITY INCR: lwrad scheme
This is the increment across the longwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0]
+ 
m01s03i182SPECIFIC HUMIDITY INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0] + 
m01s04i142SPECIFIC HUMIDITY INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + 
m01s04i182SPECIFIC HUMIDITY INCR: ls rain
Vapour increment from the large-scale precipitation scheme and the
balancing cloud scheme call.
This is the gridbox mean change in specific humidity (in kg of vapour
per kg of air) in each gridbox solely as a result of the large-scale
precipitation scheme.
[lbproc=0]
+ 
m01s05i182Q     INCR: convection +(PC2 inhom)
Total increment to specific humidity from the convection section in
kg/kg per model physics time step. This may include increments from
PC2 inhomogeneous forcing as well as convection if PC2 is switched on.

Convection can have several sweeps per model timestep, this diagnostic
holds the total increment. Available every model physics timestep.
[lbproc=0] - 
m01s05i162SPECIFIC HUMIDITY INCR: convection
Specific humidity increments from convection only in kg/kg per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=0] + 
m01s16i162SPECIFIC HUMIDITY INCR: pc2 initiali
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]
+ 
m01s16i182SPECIFIC HUMIDITY INCR: pc2 pressure
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]) / ATMOS_TIMESTEP
 alevel site time1 s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
tnt CFsubhr 
m01s30i181T TOTAL INCREMENT ON MODEL LEVELS
Total increment to temperature over a model timestep.
Units K/timestep.
[lbproc=0] / ATMOS_TIMESTEP
 alevel site time1 K s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
tnta CFsubhr 
(
m01s10i181dT SOLVER INC ON MODEL LEVELS
Increment from the Helmholtz solver dT is on model levels on the same grid
as T. The increment is the change in T per timestep.
Units: K/timestep
[lbproc=0]
+ 
m01s12i181TEMPERATURE INCR: advect K/Timestep
Increments from section 12 (12181-12187)-  Semi-lagrangian advection.

Note the increments from the semi-lagrangain advection include
both the basic advection increment ie the increment to q say purely based on
the start of timestep value and the calculation to determine the new value
at the location, and  a part due to the advection of the sum of the increments
to q (dq) calculated by atmos_phys1. The part due to the advection of the
increments is usually much smaller. All increments have units of change in
the field per timestep.
[lbproc=0]
+ 
m01s12i381TEMP INC DUE TO ADV CORRECTION
Increment to temperature due to corrections to advection scheme
Units K/timestep.
[lbproc=0]) / ATMOS_TIMESTEP
 alevel site time1 K s-1 - embargoed HadREM-CP4A_CFsubhr_mappings.cfg
tntc CFsubhr 
m01s05i161TEMPERATURE       INCR: convection
Temperature increments from convection only in Kelvin per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=0] / ATMOS_TIMESTEP
 alevel site time1 K s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
tntmp CFsubhr 
(
m01s14i181TEMPERATURE INCR: En cor K/Timestep
Temperature increment from the energy correction.

At present the energy correction increment applied to temperature
is the same at all model levels and at all gridpoints. The diagnostic
is avialable at all model levels mainly for checking purposes.
The units are kelvins per model timestep.
[lbproc=0]+ m01s01i181[lbproc=0]
+ m01s02i181[lbproc=0] + 
m01s03i181TEMPERATURE       INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
temperature, in K.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

Available on all timesteps.
[lbproc=0] + 
m01s04i141TEMPERATURE INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]
+ 
m01s04i181TEMPERATURE       INCR: ls rain
Temperature increment from the large-scale precipitation scheme
and the balancing cloud scheme call.
This is the gridbox mean change in temperature (in Kelvin) in
each gridbox solely as a result of the large-scale precipitation
scheme.
[lbproc=0] + 
m01s05i181TEMPERATURE INC:convect +(PC2 inhom)
Temperature increment from convection section in Kelvin per model timestep.
This may include increments from PC2 inhomogeneous forcing as well as
convection if PC2 is switched on.

In one model timestep there can be several sweeps of convection. This
diagnostic gives the total increment across convection per model timestep.
[lbproc=0] + 
m01s06i181GW HEATING TEMPERATURE INC
This is the increment to the gridbox mean temperature, in K, due to
the frictional dissipation of parametrized gravity waves and flow blocking drag.
It includes contributions from the orographic and non-orographic gravity wave
schemes. It is only available when the <5A> orographic drag scheme is selected.
Available on all timesteps.
[lbproc=0]
+ 
m01s16i161TEMPERATURE INCR: pc2 initialisation
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + 
m01s16i181TEMPERATURE INCR: pc2 pres change
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + 
m01s35i029T TENDENCY SPT INCREMENT
Increment of temperature done by the SPT, increments from
physics x forcing pattern.
Units: Temperature (K)
[lbproc=0])
/ ATMOS_TIMESTEP
noteA stash code for SKEB2 term is now 35029, instead of 35024.
 alevel site time1 K s-1 - embargoed HadREM-CP4A_CFsubhr_mappings.cfg
tntr CFsubhr 
(
m01s01i161TEMPERATURE INCR: swrad MINUS LH PC2
This is the increment across the shortwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=0] + 
m01s02i161TEMPERATURE       INCR: lwrad - pc2
This is the increment across the longwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=0]) / ATMOS_TIMESTEP
 alevel site time1 K s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
tntscpbl CFsubhr 
(
m01s03i181TEMPERATURE       INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
temperature, in K.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

Available on all timesteps.
[lbproc=0] + 
m01s04i141TEMPERATURE INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]
+ 
m01s04i181TEMPERATURE       INCR: ls rain
Temperature increment from the large-scale precipitation scheme
and the balancing cloud scheme call.
This is the gridbox mean change in temperature (in Kelvin) in
each gridbox solely as a result of the large-scale precipitation
scheme.
[lbproc=0] + 
m01s16i161TEMPERATURE INCR: pc2 initialisation
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + 
m01s16i181TEMPERATURE INCR: pc2 pres change
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]
+ m01s01i181[lbproc=0] - 
m01s01i161TEMPERATURE INCR: swrad MINUS LH PC2
This is the increment across the shortwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=0] + m01s02i181[lbproc=0]
- 
m01s02i161TEMPERATURE       INCR: lwrad - pc2
This is the increment across the longwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=0] + 
m01s05i181TEMPERATURE INC:convect +(PC2 inhom)
Temperature increment from convection section in Kelvin per model timestep.
This may include increments from PC2 inhomogeneous forcing as well as
convection if PC2 is switched on.

In one model timestep there can be several sweeps of convection. This
diagnostic gives the total increment across convection per model timestep.
[lbproc=0] - 
m01s05i161TEMPERATURE       INCR: convection
Temperature increments from convection only in Kelvin per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=0])
/ ATMOS_TIMESTEP
 alevel site time1 K s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
ts CFsubhr 
m01s00i024[lbproc=0]
 site time1 K - ok HadREM-CP4A_CFsubhr_mappings.cfg
ua CFsubhr 
m01s00i002[lbproc=0]
 alevel site time1 m s-1 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
uas CFsubhr 
m01s03i209[lbproc=0]
 site height10m time1 m s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
va CFsubhr 
m01s00i003[lbproc=0]
 alevel site time1 m s-1 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
vas CFsubhr 
m01s03i210[lbproc=0]
 site height10m time1 m s-1 - ok HadREM-CP4A_CFsubhr_mappings.cfg
wap CFsubhr 
m01s30i008OMEGA ON THETA LEVELS (C GRID)
This is an intermediate stage of the calculation of omega on pressure
levels, where rho is interpolated to model theta levels. Note that the
top theta level is set equal to the top rho level.

Units: Pa/s
[lbproc=0]
 alevel site time1 Pa s-1 cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
zg CFsubhr 
m01s16i201[lbproc=0]
 alevel site time1 m cftables ok HadREM-CP4A_CFsubhr_mappings.cfg
cl Cres6hrPt 
m01s02i261[lbproc=0]
 longitude latitude alevel time1 1 - embargoed HadREM-CP4A_Cres6hrPt_mappings.cfg
ec550aer Cres6hrPt 
m01s02i530UKCA 3D AEROSOL EXTINCTION
Aerosol extinction coefficient in units m-1 from UKCA RADAER
summed over all available and optically active aerosol modes.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
To output this diagnostic the domain should specify both the
model theta levels desired for output, and a list of pseudo-levels
corresponding to the desired radiation bands for calculating
aerosol optical depth.

The integral of this diagnostic with height through the full
atmospheric column should be equal to the total optical depth
from UKCA RADAER (for the same wavelength(s)).
[lbplev=3, lbproc=0]
+ 
m01s02i540CLASSIC 3D AEROSOL EXTINCTION
Aerosol extinction coefficient in units m-1 from CLASSIC aerosols
summed over all available and optically active aerosol types.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
To output this diagnostic the domain should specify both the
model levels desired for output, and a list of pseudo-levels
corresponding to the desired radiation bands for calculating
aerosol optical depth.

The integral of this diagnostic with height through the full
atmospheric column should be equal to the total optical depth from
CLASSIC (for the same wavelength(s)).
[lbplev=3, lbproc=0]
 longitude latitude alevel lambda550nm time1 m-1 - embargoed HadREM-CP4A_Cres6hrPt_mappings.cfg
emidms Cres6hrPt 
m01s50i214DMS surf emissions (kg m-2 s-1)
Surface emission flux of DMS
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=0]
 longitude latitude time1 kg m-2 s-1 - embargoed HadREM-CP4A_Cres6hrPt_mappings.cfg
emiisop Cres6hrPt 
(
MOLECULAR_MASS_OF_ISOPRENE68.
 / (5.0 * 
ATOMIC_MASS_OF_C12.
))
* (
m01s03i495ISOPRENE SURF EMIS       KG C/M2/S
Gridbox total isoprene emissionfrom plants):

Emission rate of isoprene (C5H8) for each gridcell in kgC/m2/s.
[lbproc=0] * m01s00i505)
 longitude latitude time1 kg m-2 s-1 - embargoed HadREM-CP4A_Cres6hrPt_mappings.cfg
uas Cres6hrPt 
m01s03i209[lbproc=0]
 longitude latitude height10m time1 m s-1 - embargoed HadREM-CP4A_Cres6hrPt_mappings.cfg
vas Cres6hrPt 
m01s03i210[lbproc=0]
 longitude latitude height10m time1 m s-1 - embargoed HadREM-CP4A_Cres6hrPt_mappings.cfg
rlut E1hrClimMon 
mean_diurnal_cycle(
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128, lbtim_ia=24])
 longitude latitude time3 W m-2 - ok HadREM-CP4A_E1hrClimMon_mappings.cfg
rlutcs E1hrClimMon 
mean_diurnal_cycle(
m01s02i206CLEAR-SKY (II) UPWARD LW FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere neglecting
the radiative effects of all clouds in the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128, lbtim_ia=24] +

m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128, lbtim_ia=24] - 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128, lbtim_ia=24])
 longitude latitude time3 W m-2 - ok HadREM-CP4A_E1hrClimMon_mappings.cfg
rsdt E1hrClimMon 
mean_diurnal_cycle(
m01s01i207INCOMING SW RAD FLUX (TOA): ALL TSS
The incoming SW radiative flux from the sun. The diagnostic
is calculated for all timesteps.
[lbproc=128, lbtim_ia=24])
 longitude latitude time3 W m-2 - ok HadREM-CP4A_E1hrClimMon_mappings.cfg
rsut E1hrClimMon 
mean_diurnal_cycle(
m01s01i208OUTGOING SW RAD FLUX (TOA)
The outgoing SW radiative flux at the top of the atmosphere.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean albedo at a
point you should diagnose the incoming and outgoing SW radiative fluxes
the appropriate time means and take the ratio of the latter to the
former. To diagnose a spatially meaned albedo you should mean the
incoming and outgoing SW fluxes over the region in question before
taking the ratio. Note especially when using a graphics package to
plot a map of the albedo that if the package has a facility for
generating the mean of the plotted field automatically the number
you get will not be the actual mean albedo of the region as defined
from the meaned fluxes.
[lbproc=128, lbtim_ia=24])
 longitude latitude time3 W m-2 - ok HadREM-CP4A_E1hrClimMon_mappings.cfg
rsutcs E1hrClimMon 
mean_diurnal_cycle(
m01s01i209CLEAR-SKY (II) UPWARD SW FLUX (TOA)
The outgoing clear-sky SW radiative flux at the top of the
atmosphere. This is calculated as type II; that is at every
grid-point the radiative flux is calculated using exactly
the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean clear-sky albedo
at a point you should diagnose the incoming and outgoing clear-sky
SW radiative fluxes at the top of the atmosphere ((001,001,207) and
the latter to the former. To diagnose a spatially meaned albedo you
should mean the incoming and outgoing SW fluxes over the region in
question before taking the ratio. Note especially when using a
graphics package to plot a map of the albedo that if the package has
a facility for generating the mean of the plotted field automatically
the number you get will not be the actual mean albedo of the region as
defined from the meaned fluxes.
[lbproc=128, lbtim_ia=24])
 longitude latitude time3 W m-2 - ok HadREM-CP4A_E1hrClimMon_mappings.cfg
psl E1hr 
m01s16i222[lbproc=0]
 longitude latitude time1 Pa - embargoed HadREM-CP4A_E1hr_mappings.cfg
ua27 E1hr 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=0]
 longitude latitude plev27 time1 m s-1 - embargoed HadREM-CP4A_E1hr_mappings.cfg
va27 E1hr 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=0]
 longitude latitude plev27 time1 m s-1 - embargoed HadREM-CP4A_E1hr_mappings.cfg
cfadDbze94 E3hrPt 
m01s02i372COSP: CLOUDSAT CFAD Ze 40 CSAT LVLS
CloudSat reflectivity (94 GHz) histograms as a function of height. For each
gridbox, this diagnostic reports a 2D histogram, with frequency of occurrence of
volumes in height-reflectivity bins. The histogram is normalised level-by-level.
Before the histograms are computed, the reflectivity (2.351) is regridded onto a
standard 40-level grid. The pseudo-level dimension contains the discretisation in
reflectivity, with 15 5-dBZ intervals, from -50 to +25. Valid Z values smaller
than -50 and larger than +25 are set into the smallest bin and largest bin,
respectively. The CloudSat sentivity is estimated to around -28 dBZ, so -25 dBZ
is a conservative threshold for the identification of cloudy volumes.
[lbproc=0]
 longitude latitude alt40 dbze time1 1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
cfadLidarsr532 E3hrPt 
m01s02i370COSP: CALIPSO CFAD SR 40 CSAT LEVELS
Attenuated total backscatter histograms as a function of height. For each
gridbox, this diagnostic reports a 2D histogram, with frequency of occurrence
of volumes in height-ATB bins. The histogram is normalised level-by-level.
Before the histograms are computed, the ATB (2.341) is regridded onto a
standard 40-level grid. The pseudo-level dimension contains the discretisation
in ATB, with 15 intervals:
[ 0.0 ,   0.01] -> Fully attenuated
( 0.01,   1.2]  -> Clear
( 1.2 ,   3.0]  -> Unclassified
( 3.0 ,   5.0]  -> Unclassified, probably cloudy
( 5.0 ,   7.0]  -> Cloudy (and all the intervals below)
( 7.0 ,  10.0]
(10.0 ,  15.0]
(15.0 ,  20.0]
(20.0 ,  25.0]
(25.0 ,  30.0]
(30.0 ,  40.0]
(40.0 ,  50.0]
(50.0 ,  60.0]
(60.0 ,  80.0]
(80.0 ,   Inf]
[lbproc=0]
 longitude latitude alt40 scatratio time1 1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
ch4 E3hrPt 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_CH416.
)
* 
m01s34i009CH4 MASS MIXING RATIO AFTER TSTEP
Methane Mass Mixing Ratio in kg/kg(Air)
[lbproc=0]
 longitude latitude alevel time1 mol mol-1 - embargoed HadREM-CP4A_E3hrPt_mappings.cfg
clcalipso E3hrPt 
m01s02i371COSP: CALIPSO CLOUD AREA 40 CSAT LVS
Cloud fraction on model levels from CALIPSO simulator on the standard 40-level
vertical grid. The cloud fraction is computed after the ATB (2.341) is regridded
onto a standard 40-level grid. Needs mask 2.325.
[lbproc=0] / 
m01s02i325COSP: MASK FOR CALIPSO CF ON 40 LVLS
Heaviside function needed to identify missing data for CALIPSO 3D cloud
fraction on the standard CloudSat grid with 40 levels
(2.371, 2.374, 2.473, 2.474, 2.475), 0=missing, 1=ok.
You need to divide (2.371, 2.374, 2.473, 2.474, 2.475)/2.325 to get
the correct cloud fraction. This needs to be requested with the same
time profile as (2.371, 2.374, 2.473, 2.474, 2.475).
[lbproc=0]
 longitude latitude alt40 time1 1 cloud ok HadREM-CP4A_E3hrPt_mappings.cfg
clhcalipso E3hrPt 
m01s02i346COSP: CALIPSO HIGH-LEVEL CLOUD
High-level cloud fraction from CALIPSO simulator. CTP < 440 hPa.
Needs mask 2.323.
[blev=
P220220.0
, lbproc=0] / 
m01s02i323COSP: MASK FOR 2.346
Heaviside function needed to identify missing data for high-level cloud fraction
from CALIPSO (2.346), 0=missing, 1=ok. You need to divide 2.346/2.323 to get the
correct cloud fraction. This needs to be requested with the same time profile
as 2.346.
[blev=
P220220.0
, lbproc=0]
 longitude latitude p220 time1 1 cloud ok HadREM-CP4A_E3hrPt_mappings.cfg
clisccp E3hrPt 
divide_by_mask(
m01s02i337COSP: ISCCP CTP-TAU HISTOGRAM
Cloud fraction in 7x7 CTP-tau bins. The pseudo-level dimension contains the
tau axis, with intervals:
[ 0.0,  0.3)
[ 0.3,  1.3)
[ 1.3,  3.6)
[ 3.6,  9.4)
[ 9.4, 23.0)
[23.0, 60.0)
[60.0,  inf)

Reported on sunlit points only (mask 2.330).
[blev=
PLEV7C900.0 740.0 620.0 500.0 375.0 245.0 90.0
, lbproc=0], 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=0])
 longitude latitude plev7c tau time1 1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
cllcalipso E3hrPt 
m01s02i344COSP: CALIPSO LOW-LEVEL CLOUD
Low-level cloud fraction from CALIPSO simulator. 680 hPa <= CTP.
Needs mask 2.321.
[blev=
P840840.0
, lbproc=0] / 
m01s02i321COSP: MASK FOR 2.344
Heaviside function needed to identify missing data for low-level cloud fraction
from CALIPSO (2.344), 0=missing, 1=ok. You need to divide 2.344/2.321 to get the
correct cloud fraction. This needs to be requested with the same time profile
as 2.344.
[blev=
P840840.0
, lbproc=0]
commentCALIPSO Low Level Cloud Fraction
 longitude latitude p840 time1 1 cloud ok HadREM-CP4A_E3hrPt_mappings.cfg
clmcalipso E3hrPt 
m01s02i345COSP: CALIPSO MID-LEVEL CLOUD
Mid-level cloud fraction from CALIPSO simulator. 440 hPa <= CTP < 680 hPa.
Needs mask 2.322.
[blev=
P560560.0
, lbproc=0] / 
m01s02i322COSP: MASK FOR 2.345
Heaviside function needed to identify missing data for mid-level cloud fraction
from CALIPSO (2.345), 0=missing, 1=ok. You need to divide 2.345/2.322 to get the
correct cloud fraction. This needs to be requested with the same time profile
as 2.345.
[blev=
P560560.0
, lbproc=0]
 longitude latitude p560 time1 1 cloud ok HadREM-CP4A_E3hrPt_mappings.cfg
clmisr E3hrPt 
fix_clmisr_height(
m01s02i360COSP: MISR CTH-TAU HISTOGRAM
Cloud fraction in 16x7 CTH-tau bins. The pseudo-level dimension contains the
tau axis, with intervals:
[ 0.0,  0.3)
[ 0.3,  3.6)
[ 3.6,  9.4)
[ 9.4, 23.0)
[23.0, 60.0)
[60.0,  inf)

The vertical leves are unevenly-spaced, with boundaries (m):
(-99000,     0] - > Cloud can be detected but too thin to get CTH
(     0,   500]
(   500,  1000]
(  1000,  1500]
(  1500,  2000]
(  2000,  2500]
(  2500,  3000]
(  3000,  4000]
(  4000,  5000]
(  5000,  7000]
(  7000,  9000]
(  9000, 11000]
( 11000, 13000]
( 13000, 15000]
( 15000, 17000]
( 17000, 99000]
[lbproc=0], 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=0])
 longitude latitude alt16 tau time1 1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
cltcalipso E3hrPt 
m01s02i347COSP: CALIPSO TOTAL CLOUD FRACTION
Total cloud fraction from CALIPSO simulator. Needs mask 2.324.
[lbproc=0] / 
m01s02i324COSP: MASK FOR 2.347
Heaviside function needed to identify missing data for total cloud fraction from
CALIPSO (2.347), 0=missing, 1=ok. You need to divide 2.347/2.324 to get the
correct cloud fraction. This needs to be requested with the same time profile
as 2.347.
[lbproc=0]
 longitude latitude time1 1 cloud ok HadREM-CP4A_E3hrPt_mappings.cfg
hus E3hrPt 
m01s00i010[lbproc=0]
 longitude latitude alevel time1 1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
hus7h E3hrPt 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 1 - embargoed HadREM-CP4A_E3hrPt_mappings.cfg
jpdftaureicemodis E3hrPt 
jpdftaure_divide_by_mask(m01s02i469[lbproc=0], 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=0])
 longitude latitude plev7c effectRadIc tau time1 1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
jpdftaureliqmodis E3hrPt 
jpdftaure_divide_by_mask(m01s02i468[lbproc=0], 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=0])
 longitude latitude plev7c effectRadLi tau time1 1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
n2o E3hrPt 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_N2O44.
)
* 
m01s34i049N2O MASS MIXING RATIO AFTER TIMESTEP
Nitrous Oxide Mass Mixing Ratio in kg/kg(Air)
[lbproc=0]
 longitude latitude alevel time1 mol mol-1 - embargoed HadREM-CP4A_E3hrPt_mappings.cfg
o3 E3hrPt 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_O348.
)
* 
m01s34i001O3 MASS MIXING RATIO AFTER TIMESTEP
Ozone Mass Mixing Ratio in kg/kg(Air)
[lbproc=0]
 longitude latitude alevel time1 mol mol-1 - embargoed HadREM-CP4A_E3hrPt_mappings.cfg
parasolRefl E3hrPt 
fix_parasol_sza_axis(
m01s02i348COSP: PARASOL TOA REFLECTANCE
Simulated reflectance from PARASOL as seen at the top of the atmosphere
for 5 solar zenith angles (degree): 0, 20, 40, 60, 80. Valid only over
ocean and for one viewing direction (viewing zenith angle of 30 degrees
and relative azimuth angle 320 degrees).
[lbproc=0])
 longitude latitude sza5 time1 1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
ps E3hrPt 
m01s00i409[lbproc=0]
 longitude latitude time1 Pa - ok HadREM-CP4A_E3hrPt_mappings.cfg
psl E3hrPt 
m01s16i222[lbproc=0]
 longitude latitude time1 Pa - embargoed HadREM-CP4A_E3hrPt_mappings.cfg
rsdcs E3hrPt 
correct_multilevel_metadata(
m01s01i220CLEAR-SKY DOWNWARD SW FLUX ON LEVELS
Clear-sky downwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 longitude latitude alevhalf time1 W m-2 radiation embargoed HadREM-CP4A_E3hrPt_mappings.cfg
rsucs E3hrPt 
correct_multilevel_metadata(
m01s01i219CLEAR-SKY UPWARD SW FLUX ON LEVELS
Clear-sky upwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 longitude latitude alevhalf time1 W m-2 radiation embargoed HadREM-CP4A_E3hrPt_mappings.cfg
rsuscs E3hrPt 
m01s01i211CLEAR-SKY (II) UP SURFACE SW FLUX
The upward clear-sky SW radiative flux at the surface.
It is calculated using method II for clear-sky fluxes; that is
at every grid-point the radiative flux is calculated using
exactly the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean clear-sky
surface albedo the total clear-sky downward flux at the surface
should be diagnosed. These fields should be meaned in space and time
as required and then ratioed to give an albedo: it would be incorrect
to average an albedo itself as this would distort the proper
flux-weighting of the diagnostic.
[lbproc=0]
 longitude latitude time1 W m-2 - embargoed HadREM-CP4A_E3hrPt_mappings.cfg
rsutcsaf E3hrPt 
m01s01i519CLEAR-CLEAN UPWARD SW FLUX ON LEVELS
Clear-sky, clean-air upwards SW flux in Wm-2 on radiation levels
(ignoring clouds and aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=0]
 longitude latitude time1 W m-2 radiation embargoed HadREM-CP4A_E3hrPt_mappings.cfg
ts E3hrPt 
m01s00i024[lbproc=0]
 longitude latitude time1 K - embargoed HadREM-CP4A_E3hrPt_mappings.cfg
ua7h E3hrPt 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 m s-1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
va7h E3hrPt 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 m s-1 - ok HadREM-CP4A_E3hrPt_mappings.cfg
ps E6hrZ 
m01s00i409[lbproc=192]
 latitude time Pa - embargoed HadREM-CP4A_E6hrZ_mappings.cfg
hus EdayZ 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=192]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=192]
 latitude plev19 time 1 - ok HadREM-CP4A_EdayZ_mappings.cfg
ta EdayZ 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=192]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=192]
 latitude plev19 time K - ok HadREM-CP4A_EdayZ_mappings.cfg
ua EdayZ 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time m s-1 - ok HadREM-CP4A_EdayZ_mappings.cfg
utendnogw EdayZ 
m01s06i115EAST. FORCE FROM SPECTRAL GW P LEVS
Net eastward acceleration from the spectral (non-orographic)
gravity wave parametrization GW_USSP. These gravity waves have
non-zero phase speeds and are important in the stratosphere and above.
The acceleration is available on pressure levels. Units are ms-2
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time m s-2 - ok HadREM-CP4A_EdayZ_mappings.cfg
utendogw EdayZ 
m01s06i247U-ACCEL FROM SATURATED STRESS P LEVS
This is the x-component of the gravity wave drag due to
linear hydrostatic waves exerted on the zonal wind, U.
It is output on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time m s-2 - ok HadREM-CP4A_EdayZ_mappings.cfg
va EdayZ 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=192]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=192]
 latitude plev19 time m s-1 - ok HadREM-CP4A_EdayZ_mappings.cfg
zg EdayZ 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=192]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=192]
 latitude plev19 time m - ok HadREM-CP4A_EdayZ_mappings.cfg
evspsblpot Eday 
m01s03i334LAND MEAN POTENTIAL EVAPORATION
Diagnostic of the land mean potential evaporation rate (kg/m2/s).
Potential evaporation here is defined as the evapotranspiration that
would occur if the soil and vegetation surfaces are saturated.
This is calculated by taking the ratio of the explicit actual and
potential evapotranspiration fluxes. This ratio is used to calculate
the total (i.e. explicit flux and implicit correction term to account
for changes during the timestep) potential evapotranspiration from the
total actual evapotranspiration. (The implicit correction for potential
evapotranspiration cannot be calculated directly as the surface and
boundary layer states are consistent with the actual evapotranspiration
and not the potential evaporation flux).
[lbproc=128]
noteMerge with common mappings when approved
 longitude latitude time kg m-2 s-1 - embargoed HadREM-CP4A_Eday_mappings.cfg
hfls Eday 
land_class_mean(
m01s03i330SURFACE LATENT HEAT FLUX ON TILES
Latent heat flux (W/m2) over each surface tile

Available on all timesteps.
[lbproc=128], 
m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
[lbproc=128],
land_class='all')
 longitude latitude time W m-2 - ok HadREM-CP4A_Eday_mappings.cfg
hfss Eday 
land_class_mean(
m01s03i290SURFACE SENSIBLE HEAT FLUX ON TILES
Flux of sensible heat from the surface, for each surface tile
[lbproc=128], 
m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
[lbproc=128],
land_class='all')
 longitude latitude time W m-2 - ok HadREM-CP4A_Eday_mappings.cfg
rss Eday 
m01s01i201NET DOWN SURFACE SW FLUX: SW TS ONLY
The net downward (total downward minus upward) radiative SW flux at the
surface (ground or ocean surface). The diagnostic is available
only on SW radiation timesteps.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean surface albedo
downward flux at the surface (001,001,235) should be diagnosed. The
mean upward flux is then the difference between the former and the
latter, and the ratio of the mean upward to the mean downward flux
gives an appropriate mean albedo. When calculating the albedo of an
extended region the upward and downward fluxes over that region should
be averaged first and then ratioed: it would be incorrect to calculate
the albedo at each individual point and take the mean of the resulting
fields as this would distort the proper flux-weighting of the
diagnostic.
[lbproc=128]
notemerge into common_mappings once reviewed
 longitude latitude time W m-2 - embargoed HadREM-CP4A_Eday_mappings.cfg
utendnogw EmonZ 
m01s06i115EAST. FORCE FROM SPECTRAL GW P LEVS
Net eastward acceleration from the spectral (non-orographic)
gravity wave parametrization GW_USSP. These gravity waves have
non-zero phase speeds and are important in the stratosphere and above.
The acceleration is available on pressure levels. Units are ms-2
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time m s-2 - ok HadREM-CP4A_EmonZ_mappings.cfg
hus Emon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=128]
 longitude latitude plev7h time 1 - ok HadREM-CP4A_Emon_mappings.cfg
orog Emon 
m01s00i033[lbproc=128]
commentMonthly mean orography (needed if land ice has time varying altitude).
 longitude latitude time m - ok HadREM-CP4A_Emon_mappings.cfg
wap Emon 
m01s30i008OMEGA ON THETA LEVELS (C GRID)
This is an intermediate stage of the calculation of omega on pressure
levels, where rho is interpolated to model theta levels. Note that the
top theta level is set equal to the top rho level.

Units: Pa/s
[lbproc=128]
 longitude latitude alevel time Pa s-1 - ok HadREM-CP4A_Emon_mappings.cfg
ps Esubhr 
m01s00i409[lbproc=0]
 longitude latitude time1 Pa - embargoed HadREM-CP4A_Esubhr_mappings.cfg
reffclic Esubhr 
0.5 * 
m01s02i398L-S ICE WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale ice cloud, weighted by
large-scale ice cloud fraction (2.313). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=0] / 
m01s02i313GRIDBOX ICE LSC CF IN RADIATION
Grid box average of large-scale ice cloud fraction
[lbproc=0]
 alevel site time1 m - embargoed HadREM-CP4A_Esubhr_mappings.cfg
reffclis Esubhr 
0.5 * 
m01s02i398L-S ICE WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale ice cloud, weighted by
large-scale ice cloud fraction (2.313). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=0] / 
m01s02i313GRIDBOX ICE LSC CF IN RADIATION
Grid box average of large-scale ice cloud fraction
[lbproc=0]
 alevel site time1 m - embargoed HadREM-CP4A_Esubhr_mappings.cfg
reffclwc Esubhr 
m01s02i397L-S LIQ WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale liquid cloud, weighted by
large-scale liquid cloud fraction (2.312). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=0] / 
m01s02i312GRIDBOX LIQ LSC CF IN RADIATION
Grid box average of large-scale liquid cloud fraction
[lbproc=0]
 alevel site time1 m - embargoed HadREM-CP4A_Esubhr_mappings.cfg
reffclws Esubhr 
m01s02i397L-S LIQ WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale liquid cloud, weighted by
large-scale liquid cloud fraction (2.312). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=0] / 
m01s02i312GRIDBOX LIQ LSC CF IN RADIATION
Grid box average of large-scale liquid cloud fraction
[lbproc=0]
 alevel site time1 m - embargoed HadREM-CP4A_Esubhr_mappings.cfg
tnhuspbl Esubhr 
m01s03i190TOTAL (LIQ) WATER INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
total specific water content ( qT = q + qCL ), in kg of moisture per kg of air.

WARNING : May change to mass mixing ratio from UM VN5.4.

The boundary layer scheme advects total water content rather than specific
humidity and therefore does not produce a direct increment in specific
humidity.
However, see related variable (1, 9, 182) SPEC HUMIDITY INC: bdy layr + ls cld.

Available on all timesteps.
[lbproc=0] / ATMOS_TIMESTEP
 alevel site time1 s-1 - embargoed HadREM-CP4A_Esubhr_mappings.cfg
tnhusscp Esubhr 
(
m01s01i182SPECIFIC HUMIDITY INCR: swrad scheme
This is the increment across the shortwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0] + 
m01s02i182SPECIFIC HUMIDITY INCR: lwrad scheme
This is the increment across the longwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0]
+ 
m01s03i182SPECIFIC HUMIDITY INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=0] - 
m01s03i190TOTAL (LIQ) WATER INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
total specific water content ( qT = q + qCL ), in kg of moisture per kg of air.

WARNING : May change to mass mixing ratio from UM VN5.4.

The boundary layer scheme advects total water content rather than specific
humidity and therefore does not produce a direct increment in specific
humidity.
However, see related variable (1, 9, 182) SPEC HUMIDITY INC: bdy layr + ls cld.

Available on all timesteps.
[lbproc=0] + 
m01s04i142SPECIFIC HUMIDITY INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]
+ 
m01s04i182SPECIFIC HUMIDITY INCR: ls rain
Vapour increment from the large-scale precipitation scheme and the
balancing cloud scheme call.
This is the gridbox mean change in specific humidity (in kg of vapour
per kg of air) in each gridbox solely as a result of the large-scale
precipitation scheme.
[lbproc=0] + 
m01s05i182Q     INCR: convection +(PC2 inhom)
Total increment to specific humidity from the convection section in
kg/kg per model physics time step. This may include increments from
PC2 inhomogeneous forcing as well as convection if PC2 is switched on.

Convection can have several sweeps per model timestep, this diagnostic
holds the total increment. Available every model physics timestep.
[lbproc=0] - 
m01s05i162SPECIFIC HUMIDITY INCR: convection
Specific humidity increments from convection only in kg/kg per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=0]
+ 
m01s16i162SPECIFIC HUMIDITY INCR: pc2 initiali
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + 
m01s16i182SPECIFIC HUMIDITY INCR: pc2 pressure
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]) / ATMOS_TIMESTEP
 alevel site time1 s-1 - embargoed HadREM-CP4A_Esubhr_mappings.cfg
tntpbl Esubhr 
m01s03i189LIQUID WATER TEMP INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
liquid water temperature ( TL = T - [LC/CP]*qCL ), in K.

The boundary layer scheme advects liquid water temperature rather than
temperature and therefore does not produce a direct increment in temperature.
However, see related variable (1, 9, 181) TEMPERATURE INC: bdy layer + ls cld.

Available on all timesteps.
[lbproc=0] / ATMOS_TIMESTEP
 alevel site time1 K s-1 - embargoed HadREM-CP4A_Esubhr_mappings.cfg
tntrl Esubhr 
m01s02i161TEMPERATURE       INCR: lwrad - pc2
This is the increment across the longwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=0] / ATMOS_TIMESTEP
 alevel site time1 K s-1 - embargoed HadREM-CP4A_Esubhr_mappings.cfg
tntrlcs Esubhr 
m01s02i233CLEAR-SKY LW HEATING RATES
The LW radiative heating rates in each layer of the model atmosphere,
calculated ignoring all clouds at all levels at the grid-point from the
divergence of the clear-sky net LW flux across the layer. The value is
claulated only on LW radiative timesteps.
[lbproc=0]
 alevel site time1 K s-1 - embargoed HadREM-CP4A_Esubhr_mappings.cfg
tntrs Esubhr 
m01s01i161TEMPERATURE INCR: swrad MINUS LH PC2
This is the increment across the shortwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=0] / ATMOS_TIMESTEP
 alevel site time1 K s-1 - embargoed HadREM-CP4A_Esubhr_mappings.cfg
tntrscs Esubhr 
m01s01i233CLEAR-SKY SW HEATING RATES
The SW radiative heating rates in each layer of the model atmosphere,
calculated ignoring all clouds at all levels at the grid-point from the
divergence of the clear-sky net SW flux across the layer. The value is
claulated only on radiative timesteps and is not adjusted on non-radiative
timesteps, as are the all-sky heating rates. Note that these heating rates
cannot be interpreted as the heating rates in the clear parts of a layer
since the effects of clouds in other layers are ignored.
[lbproc=0]
 alevel site time1 K s-1 - embargoed HadREM-CP4A_Esubhr_mappings.cfg
tntscp Esubhr 
(
m01s03i181TEMPERATURE       INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
temperature, in K.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

Available on all timesteps.
[lbproc=0] - 
m01s03i189LIQUID WATER TEMP INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
liquid water temperature ( TL = T - [LC/CP]*qCL ), in K.

The boundary layer scheme advects liquid water temperature rather than
temperature and therefore does not produce a direct increment in temperature.
However, see related variable (1, 9, 181) TEMPERATURE INC: bdy layer + ls cld.

Available on all timesteps.
[lbproc=0]
+ 
m01s04i141TEMPERATURE INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + 
m01s04i181TEMPERATURE       INCR: ls rain
Temperature increment from the large-scale precipitation scheme
and the balancing cloud scheme call.
This is the gridbox mean change in temperature (in Kelvin) in
each gridbox solely as a result of the large-scale precipitation
scheme.
[lbproc=0] + 
m01s16i161TEMPERATURE INCR: pc2 initialisation
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0]
+ 
m01s16i181TEMPERATURE INCR: pc2 pres change
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=0] + m01s01i181[lbproc=0] - 
m01s01i161TEMPERATURE INCR: swrad MINUS LH PC2
This is the increment across the shortwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=0]
+ m01s02i181[lbproc=0] - 
m01s02i161TEMPERATURE       INCR: lwrad - pc2
This is the increment across the longwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=0] + 
m01s05i181TEMPERATURE INC:convect +(PC2 inhom)
Temperature increment from convection section in Kelvin per model timestep.
This may include increments from PC2 inhomogeneous forcing as well as
convection if PC2 is switched on.

In one model timestep there can be several sweeps of convection. This
diagnostic gives the total increment across convection per model timestep.
[lbproc=0]
- 
m01s05i161TEMPERATURE       INCR: convection
Temperature increments from convection only in Kelvin per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=0]) / ATMOS_TIMESTEP
 alevel site time1 K s-1 - embargoed HadREM-CP4A_Esubhr_mappings.cfg
pr GA7mon 
m01s05i216TOTAL PRECIPITATION RATE     KG/M2/S
Total precipitation rate at the surface in kg/m2/s.
This is the sum of the large scale and convective rainfall and snowfall
at the surface.e.
[lbproc=128, lbtim=122]
 longitude latitude time kg m-2 s-1 - Internal HadREM-CP4A_GA7mon_mappings.cfg
ts GA7mon 
m01s00i024[lbproc=128, lbtim=122]
 longitude latitude time K - Internal HadREM-CP4A_GA7mon_mappings.cfg
ua GA7mon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV171000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV171000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0
, lbproc=128]
 longitude latitude plev17 time m s-1 - Internal HadREM-CP4A_GA7mon_mappings.cfg
va GA7mon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV171000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV171000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0
, lbproc=128]
 longitude latitude plev17 time m s-1 - Internal HadREM-CP4A_GA7mon_mappings.cfg
uas GC1hrPtB 
m01s03i22510 METRE WIND U-COMP         B GRID
Estimate of the westerly component of horizontal wind at 10m.
Calculated by integrating the similarity equations from the surface
to 10m (U_0 = westerly component of surface current if over sea,
0.0 if over land).

Available on all timesteps.
[lbproc=0]
commentThis variable is output on the UM B-grid
 longitude latitude height10m time1 m s-1 boundary-layer embargoed HadREM-CP4A_GC1hrPtB_mappings.cfg
vas GC1hrPtB 
m01s03i22610 METRE WIND V-COMP         B GRID
Estimate of the southerly component of horizontal wind at 10m.
Calculated by integrating the similarity equations from the surface
to 10m (V_0 = southerly component of surface current if over sea,
0.0 if over land).

Available on all timesteps.
[lbproc=0]
commentThis variable is output on the UM B-grid
 longitude latitude height10m time1 m s-1 boundary-layer embargoed HadREM-CP4A_GC1hrPtB_mappings.cfg
clivi GC1hrPt 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]
 longitude latitude time1 kg m-2 - embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
clwvi GC1hrPt 
m01s02i391LARGE SCALE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2308) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]+
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]
commentmass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.
 longitude latitude time1 kg m-2 - embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
hurs GC1hrPt 
m01s03i245RELATIVE HUMIDITY AT 1.5M
Calculated from 1.5m q and saturated specific humidity at 1.5m T.

Available on all timesteps.
[lbproc=0]
 longitude latitude height2m time1 % boundary-layer embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
huss GC1hrPt 
m01s03i237SPECIFIC HUMIDITY  AT 1.5M
Estimate of atmospheric specific humidity (g/kg) at 1.5m.
Calculated by integrating the similarity equations from the
surface to 1.5m (surface value taken as saturated specific
humidity at the surface temperature).

Available on all timesteps.
[lbproc=0]
 longitude latitude height2m time1 1 boundary-layer embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
prw GC1hrPt 
m01s30i461TOTAL COLUMN Q (WATER VAPOUR PATH)
Column integral of atmospheric mass * specific humidity.
Units are kg m^-2
[lbproc=0]
commentvertically integrated through the atmospheric column
 longitude latitude time1 kg m-2 - embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
ps GC1hrPt 
m01s00i409[lbproc=0]
 longitude latitude time1 Pa atmos-physics cftables embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
sfcWind GC1hrPt 
m01s03i23010 METRE WIND SPEED ON C GRID
No help entry available.
[lbproc=0]
 longitude latitude height10m time1 m s-1 boundary-layer embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
tas GC1hrPt 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=0]
 longitude latitude time1 K boundary-layer embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
ts GC1hrPt 
m01s00i024[lbproc=0]
 longitude latitude time1 K atmos-physics boundary-layer embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
uas GC1hrPt 
m01s03i209[lbproc=0]
 longitude latitude height10m time1 m s-1 boundary-layer embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
vas GC1hrPt 
m01s03i210[lbproc=0]
 longitude latitude height10m time1 m s-1 boundary-layer embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
wa500 GC1hrPt 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
0500.0
, lbproc=0] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=0]
 longitude latitude time1 p500 m s-1 atmos-physics embargoed HadREM-CP4A_GC1hrPt_mappings.cfg
clwvi GC1hr 
m01s02i391LARGE SCALE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2308) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0] + 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]
 longitude latitude time kg m-2 cftables cloud embargoed HadREM-CP4A_GC1hr_mappings.cfg
clivi GC1hr 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=0]
 longitude latitude time kg m-2 cftables cloud embargoed HadREM-CP4A_GC1hr_mappings.cfg
pr GC1hr 
m01s04i203LARGE SCALE RAINFALL RATE    KG/M2/S
Large scale rainfall rate kg/m2/s
This is the mass per metre squared of rain (liquid precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 205). Multiply by 3600 to convert this value to mm/hour.
[lbproc=128] + 
m01s04i204LARGE SCALE SNOWFALL RATE    KG/M2/S
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour.
------------------------------------------------
Item 1 4 204
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour of
rain equivalent.
For model runs with prognostic graupel, this snowfall diagnostic will
include contributions from graupel. Do not add diagnostic (1 4 212) to
this value in any analysis or otherwise your answers will be wrong as
the graupel will be counted twice. For snow amount without graupel, please
use diagnostic (1 4 304)
[lbproc=128]
 longitude latitude time kg m-2 s-1 atmos-physics embargoed HadREM-CP4A_GC1hr_mappings.cfg
prsn GC1hr 
m01s04i204LARGE SCALE SNOWFALL RATE    KG/M2/S
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour.
------------------------------------------------
Item 1 4 204
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour of
rain equivalent.
For model runs with prognostic graupel, this snowfall diagnostic will
include contributions from graupel. Do not add diagnostic (1 4 212) to
this value in any analysis or otherwise your answers will be wrong as
the graupel will be counted twice. For snow amount without graupel, please
use diagnostic (1 4 304)
[lbproc=128]
commentIncludes graupel
 longitude latitude time kg m-2 s-1 atmos-physics embargoed HadREM-CP4A_GC1hr_mappings.cfg
prw GC1hr 
m01s30i461TOTAL COLUMN Q (WATER VAPOUR PATH)
Column integral of atmospheric mass * specific humidity.
Units are kg m^-2
[lbproc=0]
 longitude latitude time kg m-2 atmos-physics embargoed HadREM-CP4A_GC1hr_mappings.cfg
evspsbl GC1hr 
m01s03i223SURFACE TOTAL MOISTURE FLUX  KG/M2/S
Moisture flux profile, on model half levels, with the first
value being the surface moisture flux.

Available on all timesteps.
[lbproc=128]
 longitude latitude time kg m-2 s-1 boundary-layer embargoed HadREM-CP4A_GC1hr_mappings.cfg
hus850 GC3hrPt 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P850850.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=0]
 longitude latitude p850 time1 1 atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
hus600 GC3hrPt 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P600600.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=0]
 longitude latitude p600 time1 1 atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ua200 GC3hrPt 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[lbproc=0]
 longitude latitude p200 time1 m s-1 atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ua500 GC3hrPt 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[lbproc=0]
 longitude latitude p500 time1 m s-1 atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
va200 GC3hrPt 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[lbproc=0]
 longitude latitude p200 time1 m s-1 atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
va500 GC3hrPt 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[lbproc=0]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[lbproc=0]
 longitude latitude p500 time1 m s-1 atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ta200 GC3hrPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P2020.0
0200.0
, lbproc=0] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=0]
 longitude latitude time1 p200 K atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ta300 GC3hrPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P3030.0
0, lbproc=0] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=0]
 longitude latitude time1 p300 K atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ta500 GC3hrPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P5050.0
0500.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=0]
 longitude latitude p500 time1 K atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ta700 GC3hrPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P7070.0
0700.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=0]
 longitude latitude p700 time1 K cftables embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ta850 GC3hrPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P850850.0
, lbproc=0] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=0]
 longitude latitude p850 time1 K atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ta925 GC3hrPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P925925.0
, lbproc=0] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=0]
 longitude latitude time1 p925 K atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
ta1000 GC3hrPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P1010.0
00, lbproc=0] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=0]
 longitude latitude time1 p1000 K atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
zg200 GC3hrPt 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[lbproc=0] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[lbproc=0]
 longitude latitude p200 time1 m atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
zg500 GC3hrPt 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[lbproc=0] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[lbproc=0]
 longitude latitude p500 time1 m atmos-physics embargoed HadREM-CP4A_GC3hrPt_mappings.cfg
rldcso3ref GCAERmon 
correct_multilevel_metadata(
m01s02i420CLEAR-SKY DOWN LW ON LEVELS W/ FORC
Clear-sky downwards LW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rldo3ref GCAERmon 
correct_multilevel_metadata(
m01s02i418DOWNWARD LW FLUX ON LEVELS W/ FORC
Downwards LW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rldscso3ref GCAERmon 
m01s02i420CLEAR-SKY DOWN LW ON LEVELS W/ FORC
Clear-sky downwards LW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rldso3ref GCAERmon 
m01s02i418DOWNWARD LW FLUX ON LEVELS W/ FORC
Downwards LW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rlucso3ref GCAERmon 
correct_multilevel_metadata(
m01s02i419CLEAR-SKY UP LW ON LEVELS W/ FORCING
Clear-sky upwards LW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rluo3ref GCAERmon 
correct_multilevel_metadata(
m01s02i417UPWARD LW FLUX ON LEVELS W/ FORCING
Upwards LW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rluscso3ref GCAERmon 
m01s02i419CLEAR-SKY UP LW ON LEVELS W/ FORCING
Clear-sky upwards LW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rluso3ref GCAERmon 
m01s02i417UPWARD LW FLUX ON LEVELS W/ FORCING
Upwards LW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rlutcso3ref GCAERmon 
m01s02i419CLEAR-SKY UP LW ON LEVELS W/ FORCING
Clear-sky upwards LW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rluto3ref GCAERmon 
m01s02i417UPWARD LW FLUX ON LEVELS W/ FORCING
Upwards LW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsdcso3ref GCAERmon 
correct_multilevel_metadata(
m01s01i420CLEAR-SKY DOWN SW ON LEVELS W/ FORC
Clear-sky downwards SW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsdo3ref GCAERmon 
correct_multilevel_metadata(
m01s01i418DOWNWARD SW FLUX ON LEVELS W/ FORC
Downwards SW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsdscso3ref GCAERmon 
m01s01i420CLEAR-SKY DOWN SW ON LEVELS W/ FORC
Clear-sky downwards SW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsdso3ref GCAERmon 
m01s01i418DOWNWARD SW FLUX ON LEVELS W/ FORC
Downwards SW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsucso3ref GCAERmon 
correct_multilevel_metadata(
m01s01i419CLEAR-SKY UP SW ON LEVELS W/ FORCING
Clear-sky upwards SW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsuo3ref GCAERmon 
correct_multilevel_metadata(
m01s01i417UPWARD SW FLUX ON LEVELS W/ FORCING
Upwards SW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsuscso3ref GCAERmon 
m01s01i419CLEAR-SKY UP SW ON LEVELS W/ FORCING
Clear-sky upwards SW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsuso3ref GCAERmon 
m01s01i417UPWARD SW FLUX ON LEVELS W/ FORCING
Upwards SW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsutcso3ref GCAERmon 
m01s01i419CLEAR-SKY UP SW ON LEVELS W/ FORCING
Clear-sky upwards SW flux in Wm-2 on radiation levels after a specified
forcing has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
rsuto3ref GCAERmon 
m01s01i417UPWARD SW FLUX ON LEVELS W/ FORCING
Upwards SW flux in Wm-2 on radiation levels after a specified forcing
has been applied (e.g. reduction of CO2 to pre-industrial levels).
Requires the radiative forcing scheme (double call) to be switched on.

This is a 3-dimensional field available on radiation diagnostic timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128]
 longitude latitude time W m-2 radiation embargoed HadREM-CP4A_GCAERmon_mappings.cfg
ua1000 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p1000 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua925 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P925925.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p925 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua850 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P850850.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p850 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua700 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p700 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua600 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P600600.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p600 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua500 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p500 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua400 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P400400.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p400 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua300 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p300 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua250 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P250250.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p250 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ua200 GCAmon6hrUV 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p200 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va1000 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p1000 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va925 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P925925.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p925 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va850 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P850850.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p850 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va700 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p700 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va600 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P600600.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p600 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va500 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p500 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va400 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P400400.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p400 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va300 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p300 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va250 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P250250.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p250 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
va200 GCAmon6hrUV 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p200 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta1000 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p1000 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta925 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P925925.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p925 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta850 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P850850.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p850 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta700 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p700 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta600 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P600600.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p600 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta500 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p500 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta400 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P400400.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p400 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta300 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p300 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta250 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P250250.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p250 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
ta200 GCAmon6hrUV 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p200 K atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus1000 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p1000 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus925 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P925925.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p925 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus850 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P850850.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p850 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus700 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p700 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus600 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P600600.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p600 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus500 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p500 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus400 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P400400.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p400 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus300 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p300 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus250 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P250250.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p250 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
hus200 GCAmon6hrUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p200 1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg1000 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p1000 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg925 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P925925.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p925 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg850 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P850850.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p850 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg700 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p700 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg600 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P600600.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p600 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg500 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p500 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg400 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P400400.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p400 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg300 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p300 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg250 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P250250.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p250 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
zg200 GCAmon6hrUV 
m01s30i207GEOPOTENTIAL HEIGHT ON P LEV/UV GRID
Geopotential height on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p200 m atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa1000 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
00, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p1000 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa925 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P925925.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p925 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa850 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P850850.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p850 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa700 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p700 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa600 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P600600.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p600 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa500 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
0500.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p500 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa400 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P400400.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p400 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa300 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p300 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa250 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P250250.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p250 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
wa200 GCAmon6hrUV 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128, lbtim_ia=6]
commenton UV points
 longitude latitude time p200 m s-1 atmos-physics embargoed HadREM-CP4A_GCAmon6hrUV_mappings.cfg
tas GCAmon6hr 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbtim_ia=6, lbproc=128]
 longitude latitude height2m time K boundary-layer ok HadREM-CP4A_GCAmon6hr_mappings.cfg
hus GCAmonUV 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time 1 atmos-physics embargoed HadREM-CP4A_GCAmonUV_mappings.cfg
wap GCAmonUV 
m01s30i208OMEGA ON P LEV/UV GRID
Omega on pressure levels.  Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are Pa s-1
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time Pa s-1 atmos-physics embargoed HadREM-CP4A_GCAmonUV_mappings.cfg
hfds GCOyr 
annual_from_monthly_2d(hfds)
 longitude latitude time W m-2 ocean ok HadREM-CP4A_GCOyr_mappings.cfg
so GCOyr 
annual_from_monthly_3d(so, thkcello)
 longitude latitude olevel time 1e-3 ocean ok HadREM-CP4A_GCOyr_mappings.cfg
tauuo GCOyr 
annual_from_monthly_2d_masked(tauuo, mask_2D_U)
 longitude latitude time N m-2 ocean ok HadREM-CP4A_GCOyr_mappings.cfg
tauvo GCOyr 
annual_from_monthly_2d_masked(tauvo, mask_2D_V)
 longitude latitude time N m-2 ocean ok HadREM-CP4A_GCOyr_mappings.cfg
thetao GCOyr 
annual_from_monthly_3d(thetao, thkcello)
 longitude latitude olevel time degC ocean ok HadREM-CP4A_GCOyr_mappings.cfg
uo GCOyr 
annual_from_monthly_3d_masked(uo, mask_3D_U, thkcello)
 longitude latitude olevel time m s-1 ocean ok HadREM-CP4A_GCOyr_mappings.cfg
vo GCOyr 
annual_from_monthly_3d_masked(vo, mask_3D_V, thkcello)
 longitude latitude olevel time m s-1 ocean ok HadREM-CP4A_GCOyr_mappings.cfg
wfo GCOyr 
annual_from_monthly_2d(-1 * (sowaflup + sowflisf))
 longitude latitude time kg m-2 s-1 ocean ok HadREM-CP4A_GCOyr_mappings.cfg
zos GCOyr 
annual_from_monthly_2d(zos)
 longitude latitude time m ocean ok HadREM-CP4A_GCOyr_mappings.cfg
hus1000 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P1010.0
00, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
commenton UV points
 longitude latitude time p1000 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus925 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P925925.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
commenton UV points
 longitude latitude time p925 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus850 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P850850.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
commenton UV points
 longitude latitude time p850 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus700 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
commenton UV points
 longitude latitude time p700 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus600 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P600600.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
commenton UV points
 longitude latitude time p600 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus500 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P5050.0
0500.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
commenton UV points
 longitude latitude time p500 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus400 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P400400.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
commenton UV points
 longitude latitude time p400 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus300 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P3030.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
commenton UV points
 longitude latitude time p300 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus250 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P250250.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
commenton UV points
 longitude latitude time p250 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
hus200 GCday 
m01s30i205SPECIFIC HUMIDITY ON P LEV/UV GRID
Specific humidity on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
commenton UV points
 longitude latitude time p200 1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta1000 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P1010.0
00, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
commenton UV points
 longitude latitude time p1000 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta925 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P925925.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
commenton UV points
 longitude latitude time p925 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta850 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P850850.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
commenton UV points
 longitude latitude time p850 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta700 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
commenton UV points
 longitude latitude time p700 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta600 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P600600.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
commenton UV points
 longitude latitude time p600 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta500 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P5050.0
0500.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
commenton UV points
 longitude latitude time p500 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta400 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P400400.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
commenton UV points
 longitude latitude time p400 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta300 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P3030.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
commenton UV points
 longitude latitude time p300 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta250 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P250250.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
commenton UV points
 longitude latitude time p250 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
ta200 GCday 
m01s30i204TEMPERATURE ON P LEV/UV GRID
Temperature on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are K
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
commenton UV points
 longitude latitude time p200 K atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
wa GCday 
m01s00i150[lbproc=128]
 longitude latitude alevel time m s-1 atmos-physics embargoed HadREM-CP4A_GCday_mappings.cfg
orog LPmon 
m01s00i033[lbproc=128]
commentMonthly mean orography (needed if land ice has time varying altitude).
 longitude latitude time m - ok HadREM-CP4A_LPmon_mappings.cfg
prra Omon 
pr
commentComputed as the total mass of liquid water falling as liquid rain into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.
 longitude latitude time kg m-2 s-1 ocean ok HadREM-CP4A_Omon_mappings.cfg
prsn Omon 
prsn
 longitude latitude time kg m-2 s-1 ocean ok HadREM-CP4A_Omon_mappings.cfg
opottempdiff Oyr 
opottempdiff
 longitude latitude olevel time W m-2 - embargoed HadREM-CP4A_Oyr_mappings.cfg
opottempmint Oyr 
opottempmint
 longitude latitude time degC kg m-2 - embargoed HadREM-CP4A_Oyr_mappings.cfg
opottemppmdiff Oyr 
opottemppmdiff
 longitude latitude olevel time W m-2 - embargoed HadREM-CP4A_Oyr_mappings.cfg
opottemprmadvect Oyr 
opottempadvect
 longitude latitude olevel time W m-2 - embargoed HadREM-CP4A_Oyr_mappings.cfg
opottemptend Oyr 
opottemptend
 longitude latitude olevel time W m-2 - embargoed HadREM-CP4A_Oyr_mappings.cfg
osaltdiff Oyr 
osaltdiff
 longitude latitude olevel time kg m-2 s-1 - embargoed HadREM-CP4A_Oyr_mappings.cfg
osaltpmdiff Oyr 
osaltpmdiff
 longitude latitude olevel time kg m-2 s-1 - embargoed HadREM-CP4A_Oyr_mappings.cfg
osaltrmadvect Oyr 
osaltadvect
 longitude latitude olevel time kg m-2 s-1 - embargoed HadREM-CP4A_Oyr_mappings.cfg
osalttend Oyr 
osalttend
 longitude latitude olevel time kg m-2 s-1 - embargoed HadREM-CP4A_Oyr_mappings.cfg
siconc SIday 
aice
 longitude latitude typesi time 1 - ok HadREM-CP4A_SIday_mappings.cfg
sisnthick SIday 
sisnthick
 longitude latitude time m - embargoed HadREM-CP4A_SIday_mappings.cfg
sispeed SIday 
sispeed
 longitude latitude time m s-1 - embargoed HadREM-CP4A_SIday_mappings.cfg
sithick SIday 
sithick
 longitude latitude time m - embargoed HadREM-CP4A_SIday_mappings.cfg
sitimefrac SIday 
ice_present
 longitude latitude time 1 - embargoed HadREM-CP4A_SIday_mappings.cfg
siu SIday 
siu
 longitude latitude time m s-1 - embargoed HadREM-CP4A_SIday_mappings.cfg
siv SIday 
siv
 longitude latitude time m s-1 - embargoed HadREM-CP4A_SIday_mappings.cfg
sfdsi SImon 
((meltt + meltb + meltl - congel - frazil) * 
ICE_DENSITY917.

+ melts * 
SEAWATER_DENSITY1026.
) / (100 * 
SECONDS_IN_DAY86400.
 * aice)
* 
REF_SALINITY8.
 / 1000.
 longitude latitude time kg m-2 s-1 - embargoed HadREM-CP4A_SImon_mappings.cfg
hur day 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time % atmos-physics ok HadREM-CP4A_day_mappings.cfg
hus day 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time 1 - ok HadREM-CP4A_day_mappings.cfg
pr day 
m01s04i203LARGE SCALE RAINFALL RATE    KG/M2/S
Large scale rainfall rate kg/m2/s
This is the mass per metre squared of rain (liquid precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 205). Multiply by 3600 to convert this value to mm/hour.
[lbproc=128] + 
m01s04i204LARGE SCALE SNOWFALL RATE    KG/M2/S
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour.
------------------------------------------------
Item 1 4 204
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour of
rain equivalent.
For model runs with prognostic graupel, this snowfall diagnostic will
include contributions from graupel. Do not add diagnostic (1 4 212) to
this value in any analysis or otherwise your answers will be wrong as
the graupel will be counted twice. For snow amount without graupel, please
use diagnostic (1 4 304)
[lbproc=128]
 longitude latitude time kg m-2 s-1 atmos-physics embargoed HadREM-CP4A_day_mappings.cfg
prsn day 
m01s04i204LARGE SCALE SNOWFALL RATE    KG/M2/S
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour.
------------------------------------------------
Item 1 4 204
Large scale snowfall rate kg/m2/s
This is the mass per metre squared of snow (frozen precipitation) which
falls on the surface per second as diagnosed by the large scale
precipitation scheme. It does not include a convective contribution (see
diagnostic 1 5 206).  Multiply by 3600 to convert this value to mm/hour of
rain equivalent.
For model runs with prognostic graupel, this snowfall diagnostic will
include contributions from graupel. Do not add diagnostic (1 4 212) to
this value in any analysis or otherwise your answers will be wrong as
the graupel will be counted twice. For snow amount without graupel, please
use diagnostic (1 4 304)
[lbproc=128]
commentIncludes graupel
 longitude latitude time kg m-2 s-1 atmos-physics embargoed HadREM-CP4A_day_mappings.cfg
ta day 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time K - ok HadREM-CP4A_day_mappings.cfg
sfcWindmax day 
m01s03i23010 METRE WIND SPEED ON C GRID
No help entry available.
[lbproc=8192]
 longitude latitude height10m time m s-1 - ok HadREM-CP4A_day_mappings.cfg
tasmax day 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=8192]
 longitude latitude height2m time K - ok HadREM-CP4A_day_mappings.cfg
tasmin day 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=4096]
 longitude latitude height2m time K - ok HadREM-CP4A_day_mappings.cfg
ua day 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time m s-1 - ok HadREM-CP4A_day_mappings.cfg
uas day 
m01s03i22510 METRE WIND U-COMP         B GRID
Estimate of the westerly component of horizontal wind at 10m.
Calculated by integrating the similarity equations from the surface
to 10m (U_0 = westerly component of surface current if over sea,
0.0 if over land).

Available on all timesteps.
[lbproc=128]
commentThis data is written on the Arakawa B grid rather than the C grid as is conventional with UM model output
 longitude latitude height10m time m s-1 boundary-layer ok HadREM-CP4A_day_mappings.cfg
va day 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time m s-1 - ok HadREM-CP4A_day_mappings.cfg
vas day 
m01s03i22610 METRE WIND V-COMP         B GRID
Estimate of the southerly component of horizontal wind at 10m.
Calculated by integrating the similarity equations from the surface
to 10m (V_0 = southerly component of surface current if over sea,
0.0 if over land).

Available on all timesteps.
[lbproc=128]
commentThis data is written on the Arakawa B grid rather than the C grid as is conventional with UM model output
 longitude latitude height10m time m s-1 boundary-layer ok HadREM-CP4A_day_mappings.cfg
wap day 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time Pa s-1 - ok HadREM-CP4A_day_mappings.cfg
zg day 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV81000.0 850.0 700.0 500.0 250.0 100.0 50.0 10.0
, lbproc=128]
 longitude latitude plev8 time m - ok HadREM-CP4A_day_mappings.cfg
abs550aer AERmon AEmon 
m01s02i240AITKEN (SOLUBLE) ABS OPTICAL DEPTH
Soluble Aitken mode absorption aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
+ 
m01s02i241ACCUM (SOLUBLE) ABS OPTICAL DEPTH
Soluble accumulation mode absorption aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128] + 
m01s02i242COARSE (SOLUBLE) ABS OPTICAL DEPTH
Soluble coarse mode absorption aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
+ 
m01s02i243AITKEN (INSOL) ABS OPTICAL DEPTH
Insoluble Aitken mode absorption aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128] + 
m01s02i585MINERAL DUST ABS. OPICAL DEPTH
Mineral dust absorption aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
noteAssuming CLASSIC dust.
 longitude latitude lambda550nm time 1 aerosol ok HadREM-CP4A_mappings.cfg
aerasymbnd E3hrPt AP3hrPtLev 
combine_sw_lw(
m01s01i508AERO ASYM (WGTD) IN LAYERS/SW BANDS
Total aerosol asymmetry (unitless)
weighted by the scattering optical depth (STASH 1507)
in radiation layers (effectively model theta levels)
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).

To convert this diagnostic to an actual (unweighted) asymmetry factor
divide by the total aerosol scattering optical depth:
  Aerosol asymmetry factor = STASH 1508 / STASH 1507
[lbproc=0] / 
m01s01i507TOTAL SCATTERING AOD LAYERS/SW BANDS
Total aerosol scattering optical depth (unitless)
in radiation layers (effectively model theta levels)
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).

To convert this diagnostic to a scattering coefficient in units of m-1
divide by the depth of the layer in metres:
  Aerosol scattering coefficient (m-1) = STASH 1507 / STASH 2505

To calculate the total aerosol single scattering albedo
divide by the total aerosol (extinction) optical depth:
  Aerosol single scattering albedo = STASH 1507 / STASH 1506
[lbproc=0],

m01s02i508AERO ASYM (WGTD) IN LAYERS/LW BANDS
Total aerosol asymmetry (unitless)
weighted by the scattering optical depth (STASH 2507)
in radiation layers (effectively model theta levels)
and on LW bands (as defined in the LW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to LW bands (1 to 9 for GA7 spectral files).

To convert this diagnostic to an actual (unweighted) asymmetry factor
divide by the total aerosol scattering optical depth:
  Aerosol asymmetry factor = STASH 2508 / STASH 2507
[lbproc=0] / 
m01s02i507TOTAL SCATTERING AOD LAYERS/LW BANDS
Total aerosol scattering optical depth (unitless)
in radiation layers (effectively model theta levels)
and on LW bands (as defined in the LW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to LW bands (1 to 9 for GA7 spectral files).

To convert this diagnostic to a scattering coefficient in units of m-1
divide by the depth of the layer in metres:
  Aerosol scattering coefficient (m-1) = STASH 2507 / STASH 2505

To calculate the total aerosol single scattering albedo
divide by the total aerosol (extinction) optical depth:
  Aerosol single scattering albedo = STASH 2507 / STASH 2506
[lbproc=0],
minval= '-1.0', maxval= '1.0')
commentExcludes Mineral Dust
 longitude latitude alevel spectband time1 1 aerosol ok HadREM-CP4A_mappings.cfg
aeroptbnd E3hrPt AP3hrPtLev 
combine_sw_lw(
m01s01i506TOTAL AOD IN LAYERS AND SW BANDS
Total aerosol optical depth (unitless)
in radiation layers (effectively model theta levels)
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).

To convert this diagnostic to an extinction coefficient in units of m-1
divide by the depth of the layer in metres:
  Aerosol extinction coefficient (m-1) = STASH 1506 / STASH 2505
[lbproc=0], 
m01s02i506TOTAL AOD IN LAYERS AND LW BANDS
Total aerosol optical depth (unitless)
in radiation layers (effectively model theta levels)
and on LW bands (as defined in the LW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to LW bands (1 to 9 for GA7 spectral files).

To convert this diagnostic to an extinction coefficient in units of m-1
divide by the depth of the layer in metres:
  Aerosol extinction coefficient (m-1) = STASH 2506 / STASH 2505
[lbproc=0],
swmask= 
m01s01i200LIT MASK FOR SW RADIATION TIMESTEP
Mask defining the points where SW radiation calculations are done:
  1.0 for SW lit points
  0.0 for unlit points

Note, this is a REAL number to allow a time mean to be used
as a weight for SW diagnostics only output on lit points.
[lbproc=0], minval= '0', maxval= '10')
commentExcludes Mineral Dust
 longitude latitude alevel spectband time1 1 aerosol ok HadREM-CP4A_mappings.cfg
aerssabnd E3hrPt AP3hrPtLev 
combine_sw_lw(
m01s01i507TOTAL SCATTERING AOD LAYERS/SW BANDS
Total aerosol scattering optical depth (unitless)
in radiation layers (effectively model theta levels)
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).

To convert this diagnostic to a scattering coefficient in units of m-1
divide by the depth of the layer in metres:
  Aerosol scattering coefficient (m-1) = STASH 1507 / STASH 2505

To calculate the total aerosol single scattering albedo
divide by the total aerosol (extinction) optical depth:
  Aerosol single scattering albedo = STASH 1507 / STASH 1506
[lbproc=0] / 
m01s01i506TOTAL AOD IN LAYERS AND SW BANDS
Total aerosol optical depth (unitless)
in radiation layers (effectively model theta levels)
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).

To convert this diagnostic to an extinction coefficient in units of m-1
divide by the depth of the layer in metres:
  Aerosol extinction coefficient (m-1) = STASH 1506 / STASH 2505
[lbproc=0],

m01s02i507TOTAL SCATTERING AOD LAYERS/LW BANDS
Total aerosol scattering optical depth (unitless)
in radiation layers (effectively model theta levels)
and on LW bands (as defined in the LW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to LW bands (1 to 9 for GA7 spectral files).

To convert this diagnostic to a scattering coefficient in units of m-1
divide by the depth of the layer in metres:
  Aerosol scattering coefficient (m-1) = STASH 2507 / STASH 2505

To calculate the total aerosol single scattering albedo
divide by the total aerosol (extinction) optical depth:
  Aerosol single scattering albedo = STASH 2507 / STASH 2506
[lbproc=0] / 
m01s02i506TOTAL AOD IN LAYERS AND LW BANDS
Total aerosol optical depth (unitless)
in radiation layers (effectively model theta levels)
and on LW bands (as defined in the LW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model theta levels starting at
ATMOS_BOTTOM and ending at ATMOS_TOP.

Pseudo-levels should be set to LW bands (1 to 9 for GA7 spectral files).

To convert this diagnostic to an extinction coefficient in units of m-1
divide by the depth of the layer in metres:
  Aerosol extinction coefficient (m-1) = STASH 2506 / STASH 2505
[lbproc=0], minval='0.0', maxval='1.0')
commentExcludes Mineral Dust
 longitude latitude alevel spectband time1 1 aerosol ok HadREM-CP4A_mappings.cfg
agessc Omon OPmonLev 
agessc
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time yr ocean ok HadREM-CP4A_mappings.cfg
airmass AERmon AEmonLev 
div_by_area(
m01s50i063AIR MASS DIAGNOSTIC (WHOLE ATMOS)
Total Air Mass (Whole Atmosphere) : kg
Valid only on chemical timesteps
[lbproc=128])
 longitude latitude alevel time kg m-2 chemistry ok HadREM-CP4A_mappings.cfg
albdiffbnd E3hrPt AP3hrPt 
m01s01i269DIFFUSE SURFACE ALBEDO ON SW BANDS
The grid-box mean surface albedo for the diffuse beam, output for all SW
radiation bands over both land and sea.
[lbproc=0]
 longitude latitude spectband time1 1 radiation embargoed HadREM-CP4A_mappings.cfg
albdirbnd E3hrPt AP3hrPt 
m01s01i268DIRECT SURFACE ALBEDO ON SW BANDS
The grid-box mean surface albedo for the direct beam, output for all SW
radiation bands over both land and sea.
[lbproc=0]
 longitude latitude spectband time1 1 radiation embargoed HadREM-CP4A_mappings.cfg
albisccp CFday CFmon APday APmon 
fix_packing_division(
m01s02i331COSP: ISCCP WEIGHTED CLOUD ALBEDO
In-cloud albedo, multiplied by total cloud fraction (2.334). Time-averages
of this diagnostic will have to be unweighted(divided) by the time-average
of 2.334 to produce mean in-cloud values. Linear average of cloud albedo
accross sub-columns.  Reported on sunlit points only. No need to used Heaviside
weights for time-means.
[lbproc=128],

m01s02i334COSP: ISCCP TOTAL CLOUD AREA
Total cloud area from ISCCP simulator. Reported on sunlit points only.
It needs mask 2.330.
[lbproc=128])
 longitude latitude time 1 cftables ok HadREM-CP4A_mappings.cfg
areacella fx APfx mon day 6hr 3hr 1hr 
areacella(m01s00i505)
 longitude latitude m2 atmos-physics ok HadREM-CP4A_mappings.cfg
areacello Ofx OPfx 
areacello
 longitude latitude m2 ocean ok HadREM-CP4A_mappings.cfg
ares Eday LPday 
m01s03i054[lbproc=128]
 longitude latitude time s m-1 land ok HadREM-CP4A_mappings.cfg
basin Ofx OPfx 
basin
commentglobal_land is the land-sea mask used to calculate the basin-integrated transports and is not consistent with the land-sea mask used in other diagnostics.
 longitude latitude 1 ocean ok HadREM-CP4A_mappings.cfg
bldep 6hrPlev AERmon AE6hr AEmon 
m01s03i304TURBULENT MIXING HT AFTER B.LAYER m
Maximum height of turbulent mixing. This will be the same as STASH item
(1, 3, 025) for stable layers (see STASH item (1, 3, 305)), well-mixed
boundary  layers (see STASH item (1, 3, 307)) and for cumulus layers (see
STASH item (1, 3, 310)), with both marking the lifting condensation level
in the latter case. For decoupled boundary layers (see STASH items (1, 3,
306),(1, 3, 308) and (1, 3, 309)), this will mark the top of the
decoupled layer.

Available on all timesteps.
[lbproc=128]
 longitude latitude time m boundary-layer ok HadREM-CP4A_mappings.cfg
bry AERmonZ AEmonZ 
MOLECULAR_MASS_OF_AIR28.97

* ((
m01s51i045Br MASS MIXING RATIO ON PRESS LEVS
Bromine Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_BRO96.
MINE)
+ (
m01s51i047BrCl  MASS MIX RATIO ON PRESS LEVS
BrCl MASS MIXING RATIO AFTER TSTEP
Bromine monochloride Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_BRCL115.5
)
+ (
m01s51i048BrONO2 MASS MIX RATIO ON PRESS LEVS
Bromine Nitrate Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_BRO96.
NO2)
+ (
m01s51i052HBr MASS MIXING RATIO ON PRESS LEVS
Hydrogen Bromide Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_HBR81.
)
+ (
m01s51i053HOBr MASS MIX RATIO ON PRESS LEVS
Hydrobromous Acid Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_HOBR97.
)
+ (
m01s51i994BrO MASS MIXING RATIO ON PRESSURE LEVELS
Mass mixing ratio of BrO (kg/kg)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_BRO96.
))
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
c2h6 AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_C2H630.
)
* 
m01s34i014C2H6 MASS MIXING RATIO AFTER TSTEP
Ethane Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
commentC2H6 tracer includes emissions of C2H2 and C2H4.
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
c3h8 AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_C3H844.
)
* 
m01s34i018C3H8 MASS MIXING RATIO AFTER TSTEP
Propane Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
commentC3H8 tracer includes emissions of C3H6.
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
ccldncl Eday APday 
mask_using_cube(
m01s01i298CDNC @CLOUD TOP * WEIGHT
A 2-dimensional diagnostic of liquid cloud droplet number concentration
(in cm-3) as observed from above cloud top, weighted by its own specific
weight (1:01:299), by which it must be divided to be meaningful.
[lbproc=128] / 
m01s01i299WEIGHT FOR CDNC @CLOUD TOP
Weight for diagnostic.
[lbproc=128],

m01s02i395CONVECTIVE CORE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2318) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128] + 
m01s02i396CONVECTIVE CORE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2319) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128])
commentThis droplet number is estimated in PC2 scheme hence contributed from both stratiform clouds and convective clouds.
 longitude latitude time cm-3 cloud ok HadREM-CP4A_mappings.cfg
cdnc AERmon AEmonLev 
m01s01i241DROPLET NUMBER CONC * LYR CLOUD WGT
Diagnostic of water cloud droplet number concentration (number per cubic
centimetre) weighted by layer cloud amount (diagnostic 1:01:223), by
which it must be divided to be meaningful.
[lbproc=128] / 
m01s01i223LAYER CLOUD WEIGHT FOR MICROPHYSICS
This diagnostic is one of a set related to the parametrization of cloud
microphysics available in the radiation code. To diagnose meaningful
temporal averages of microphysical quantities, allowance must be made for
variations in cloud cover or the absence of cloud; this is done by
diagnosing a weighting for each such quantity and the product of the
quantity and its weighting. A temporal average may then be calculated
once the run has finished by taking the ratio of these two diagnostics:
it is therefore imperative to check that both the diagnostics in the pair
are selected. Values at unlit points are zeroed.

The current diagnostic is available only with versions 2 or 3 of the SW.
The diagnostic is available on all cloudy levels and is the amount of
layer cloud on that level containing liquid water. It is calculated only
on SW radiation timesteps.
[lbproc=128]
commentOnly calculated in daylight gridboxes.
 longitude latitude alevel time cm-3 cloud ok HadREM-CP4A_mappings.cfg
cfadDbze94 Emon APmon 
m01s02i372COSP: CLOUDSAT CFAD Ze 40 CSAT LVLS
CloudSat reflectivity (94 GHz) histograms as a function of height. For each
gridbox, this diagnostic reports a 2D histogram, with frequency of occurrence of
volumes in height-reflectivity bins. The histogram is normalised level-by-level.
Before the histograms are computed, the reflectivity (2.351) is regridded onto a
standard 40-level grid. The pseudo-level dimension contains the discretisation in
reflectivity, with 15 5-dBZ intervals, from -50 to +25. Valid Z values smaller
than -50 and larger than +25 are set into the smallest bin and largest bin,
respectively. The CloudSat sentivity is estimated to around -28 dBZ, so -25 dBZ
is a conservative threshold for the identification of cloudy volumes.
[lbproc=128]
 longitude latitude alt40 dbze time 1 cloud ok HadREM-CP4A_mappings.cfg
cfadLidarsr532 Emon APmon 
m01s02i370COSP: CALIPSO CFAD SR 40 CSAT LEVELS
Attenuated total backscatter histograms as a function of height. For each
gridbox, this diagnostic reports a 2D histogram, with frequency of occurrence
of volumes in height-ATB bins. The histogram is normalised level-by-level.
Before the histograms are computed, the ATB (2.341) is regridded onto a
standard 40-level grid. The pseudo-level dimension contains the discretisation
in ATB, with 15 intervals:
[ 0.0 ,   0.01] -> Fully attenuated
( 0.01,   1.2]  -> Clear
( 1.2 ,   3.0]  -> Unclassified
( 3.0 ,   5.0]  -> Unclassified, probably cloudy
( 5.0 ,   7.0]  -> Cloudy (and all the intervals below)
( 7.0 ,  10.0]
(10.0 ,  15.0]
(15.0 ,  20.0]
(20.0 ,  25.0]
(25.0 ,  30.0]
(30.0 ,  40.0]
(40.0 ,  50.0]
(50.0 ,  60.0]
(60.0 ,  80.0]
(80.0 ,   Inf]
[lbproc=128]
 longitude latitude alt40 scatratio time 1 cloud ok HadREM-CP4A_mappings.cfg
cfc11global Amon APmon 
mmr2molefrac(
m01s50i063AIR MASS DIAGNOSTIC (WHOLE ATMOS)
Total Air Mass (Whole Atmosphere) : kg
Valid only on chemical timesteps
[lbproc=128], 
m01s34i055CFCl3 MASS MIXING RATIO AFTER TSTEP
Trichlorofluoromethane (CFC-11) Mass Mixing Ratio in kg/kg(Air)
[lbproc=128],

MOLECULAR_MASS_OF_CFC11137.5
)
 time 1 chemistry ok HadREM-CP4A_mappings.cfg
cfc12global Amon APmon 
mmr2molefrac(
m01s50i063AIR MASS DIAGNOSTIC (WHOLE ATMOS)
Total Air Mass (Whole Atmosphere) : kg
Valid only on chemical timesteps
[lbproc=128], 
m01s34i056CF2Cl2 MASS MIXING RATIO AFTER TSTEP
Dichlorodifluoromethane (CFC-12) Mass Mixing Ratio in kg/kg(Air)
[lbproc=128],

MOLECULAR_MASS_OF_CFC12121.
)
 time 1 chemistry ok HadREM-CP4A_mappings.cfg
ch3coch3 AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_CH3COCH358.
)
* 
m01s34i022Me2CO MASS MIXING RATIO AFTER TSTEP
Acetone (CH3COCH3) Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
ch4 Amon APmon 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_CH416.
)
* 
m01s51i009CH4 MASS MIX RATIO ON PRESS LEVS
Methane Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
ch4global Amon APmon 
mmr2molefrac(
m01s50i063AIR MASS DIAGNOSTIC (WHOLE ATMOS)
Total Air Mass (Whole Atmosphere) : kg
Valid only on chemical timesteps
[lbproc=128], 
m01s34i009CH4 MASS MIXING RATIO AFTER TSTEP
Methane Mass Mixing Ratio in kg/kg(Air)
[lbproc=128],

MOLECULAR_MASS_OF_CH416.
)
 time 1 chemistry ok HadREM-CP4A_mappings.cfg
cheaqpso4 AERmon AEmonLev 
achem_emdrywet(
MOLECULAR_MASS_OF_SO496.
,
(
m01s38i201PRIMARY H2SO4 TO AITKEN (SOL)
Primary emissions flux of sulphuric acid aerosol mass to
Aitken mode (soluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128] + 
m01s38i202PRIMARY H2SO4 TO ACCUMULATION (SOL)
Primary emissions flux of sulphuric acid aerosol mass to
accumulation mode (soluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128]
+ 
m01s38i203PRIMARY H2SO4 TO COARSE (SOL)
Primary emissions flux of sulphuric acid aerosol mass to
coarse mode (soluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128] + 
m01s38i285INCLOUD H2SO4 (H2O2) TO ACCUM. (SOL)
In-cloud H2SO4 aerosol mass production flux to accumulation
mode (soluble) via aqueous reaction of dissolved SO2 and H2O2
Valid only on chemical timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128]
+ 
m01s38i286INCLOUD H2SO4 (H2O2) TO COARSE (SOL)
In-cloud H2SO4 aerosol mass production flux to coarse mode
(soluble) via aqueous reaction of dissolved SO2 and H2O2
Valid only on chemical timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128] + 
m01s38i288INCLOUD H2SO4 (O3) TO ACCUM. (SOL)
In-cloud H2SO4 aerosol mass production flux to accumulation
mode (soluble) via aqueous reaction of dissolved SO2 and O3
Valid only on chemical timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128]
+ 
m01s38i289INCLOUD H2SO4 (O3) TO COARSE (SOL)
In-cloud H2SO4 aerosol mass production flux to coarse mode
(soluble) via aqueous reaction of dissolved SO2 and O3
Valid only on chemical timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128]), areadiv='True')
commentIncludes primary and incloud conversion to sulphate aerosol. No incloud conversion to Aitken mode in model.
noteModel output is mol H2SO4, diagnostic required kg SO4. Step 1: mol H2SO4 x mol_mass_h2so4 yields kg H2SO4. Step 2: kg H2SO4 x (mol_mass_so4 / mol_mass_h2so4) yields kg SO4. 1+2: mol H2SO4 x mol_mass_h2so4 x (mol_mass_so4 / mol_mass_h2so4) -> kg SO4. Cancelling common term mol_mass_h2so4 leaves the conversion as model output (mol H2SO4) x mol_mass_so4 -> diagnostic (kg SO4).
 longitude latitude alevel time g m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
chegpso4 AERmon AEmonLev 
achem_emdrywet(
MOLECULAR_MASS_OF_SO496.
,

m01s50i150SO2 + OH => HO2 + SO3
Chemical reaction flux for SO2 + OH => HO2 + SO3
(moles/s)
Valid only on chemical timesteps

This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)

The sum of this chemical flux over all model gridboxes gives the total
chemical flux through this reaction.
[lbproc=128], areadiv='True')
noteModel output is mol H2SO4, diagnostic required kg SO4. Step 1: mol H2SO4 x mol_mass_h2so4 yields kg H2SO4. Step 2: kg H2SO4 x (mol_mass_so4 / mol_mass_h2so4) yields kg SO4. 1+2: mol H2SO4 x mol_mass_h2so4 x (mol_mass_so4 / mol_mass_h2so4) -> kg SO4. Cancelling common term mol_mass_h2so4 leaves the conversion as model output (mol H2SO4) x mol_mass_so4 -> diagnostic (kg SO4).
 longitude latitude alevel time g m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
ci Amon APmon 
m01s05i269DEEP CONVECTION INDICATOR
Deep convection indicator, set to 1.0 if deep convection occurs and 0.0 if not.
Note as convection is often called more than once per model timestep this may
take a value between 0.0 and 1.0 if rediagnosis is called for every convection
sub-step.
[lbproc=128]
 longitude latitude time 1 cloud ok HadREM-CP4A_mappings.cfg
cl Amon CFday APmonLev APdayLev 
m01s02i261[lbproc=128]
 longitude latitude alevel time 1 cftables cloud ok HadREM-CP4A_mappings.cfg
clc CFmon APmonLev 
m01s02i317CONVECTIVE CORE 3D CLOUD FRACTION
Three-dimensional distribution of convective core cloud fraction. This is
diagnosed when McICA is used and convective cores are seen by radiation.
[lbproc=128]
noteUsing convective cores in this model configuration.
 longitude latitude alevel time 1 cftables ok HadREM-CP4A_mappings.cfg
clcalipso CFday CFmon APday APmon 
m01s02i371COSP: CALIPSO CLOUD AREA 40 CSAT LVS
Cloud fraction on model levels from CALIPSO simulator on the standard 40-level
vertical grid. The cloud fraction is computed after the ATB (2.341) is regridded
onto a standard 40-level grid. Needs mask 2.325.
[lbproc=128] / 
m01s02i325COSP: MASK FOR CALIPSO CF ON 40 LVLS
Heaviside function needed to identify missing data for CALIPSO 3D cloud
fraction on the standard CloudSat grid with 40 levels
(2.371, 2.374, 2.473, 2.474, 2.475), 0=missing, 1=ok.
You need to divide (2.371, 2.374, 2.473, 2.474, 2.475)/2.325 to get
the correct cloud fraction. This needs to be requested with the same
time profile as (2.371, 2.374, 2.473, 2.474, 2.475).
[lbproc=128]
 longitude latitude alt40 time 1 cftables ok HadREM-CP4A_mappings.cfg
clcalipso2 E3hrPt AP3hrPt 
m01s02i374COSP: CALIPSO-ONLY 3D CLOUD 40 LVLS
CALIPSO cloud fraction undetected by CloudSat (40 height levels). Clouds
detected by CALIPSO but below the detectability threshold of CloudSat.
Needs mask 2.325.
[lbproc=0] / 
m01s02i325COSP: MASK FOR CALIPSO CF ON 40 LVLS
Heaviside function needed to identify missing data for CALIPSO 3D cloud
fraction on the standard CloudSat grid with 40 levels
(2.371, 2.374, 2.473, 2.474, 2.475), 0=missing, 1=ok.
You need to divide (2.371, 2.374, 2.473, 2.474, 2.475)/2.325 to get
the correct cloud fraction. This needs to be requested with the same
time profile as (2.371, 2.374, 2.473, 2.474, 2.475).
[lbproc=0]
 longitude latitude alt40 time1 1 cloud ok HadREM-CP4A_mappings.cfg
clcalipsoice Emon APmon 
m01s02i474COSP: CALIPSO CF 40 LVLS (ICE)
Ice cloud fraction on model levels from CALIPSO simulator on the standard 40-level
vertical grid. The cloud fraction is computed after the ATB (2.341) is regridded
onto a standard 40-level grid. Needs mask 2.325.
[lbproc=128] / 
m01s02i325COSP: MASK FOR CALIPSO CF ON 40 LVLS
Heaviside function needed to identify missing data for CALIPSO 3D cloud
fraction on the standard CloudSat grid with 40 levels
(2.371, 2.374, 2.473, 2.474, 2.475), 0=missing, 1=ok.
You need to divide (2.371, 2.374, 2.473, 2.474, 2.475)/2.325 to get
the correct cloud fraction. This needs to be requested with the same
time profile as (2.371, 2.374, 2.473, 2.474, 2.475).
[lbproc=128]
 longitude latitude alt40 time 1 cloud embargoed HadREM-CP4A_mappings.cfg
clcalipsoliq Emon APmon 
m01s02i473COSP: CALIPSO CF 40 LVLS (LIQ)
Liquid cloud fraction on model levels from CALIPSO simulator on the standard 40-level
vertical grid. The cloud fraction is computed after the ATB (2.341) is regridded
onto a standard 40-level grid. Needs mask 2.325.
[lbproc=128] / 
m01s02i325COSP: MASK FOR CALIPSO CF ON 40 LVLS
Heaviside function needed to identify missing data for CALIPSO 3D cloud
fraction on the standard CloudSat grid with 40 levels
(2.371, 2.374, 2.473, 2.474, 2.475), 0=missing, 1=ok.
You need to divide (2.371, 2.374, 2.473, 2.474, 2.475)/2.325 to get
the correct cloud fraction. This needs to be requested with the same
time profile as (2.371, 2.374, 2.473, 2.474, 2.475).
[lbproc=128]
 longitude latitude alt40 time 1 cloud embargoed HadREM-CP4A_mappings.cfg
cldncl Emon APmon 
m01s01i298CDNC @CLOUD TOP * WEIGHT
A 2-dimensional diagnostic of liquid cloud droplet number concentration
(in cm-3) as observed from above cloud top, weighted by its own specific
weight (1:01:299), by which it must be divided to be meaningful.
[lbproc=128] / 
m01s01i299WEIGHT FOR CDNC @CLOUD TOP
Weight for diagnostic.
[lbproc=128]
 longitude latitude time cm-3 aerosol embargoed HadREM-CP4A_mappings.cfg
cldnvi Eday Emon APmon APday 
m01s01i280COLUMN-INTEGRATED Nd * SAMP. WEIGHT
A weighted diagnostic of the distribution of vertically-integrated
cloud droplet number, also known as column droplet number (number
per m2). Must be divided by its weighting factor (diagnostic 1:1:281)
to be meaningful.
[lbproc=128] / 
m01s01i281SAMP. WEIGHT FOR COL. INT. Nd
Weighting factor for diagnostic 1:1:280.
[lbproc=128]
noteCalculated at daylight grids only.
 longitude latitude time m-2 aerosol ok HadREM-CP4A_mappings.cfg
clhcalipso CFday CFmon APday APmon 
m01s02i346COSP: CALIPSO HIGH-LEVEL CLOUD
High-level cloud fraction from CALIPSO simulator. CTP < 440 hPa.
Needs mask 2.323.
[lbproc=128, blev=
P220220.0
]
/ 
m01s02i323COSP: MASK FOR 2.346
Heaviside function needed to identify missing data for high-level cloud fraction
from CALIPSO (2.346), 0=missing, 1=ok. You need to divide 2.346/2.323 to get the
correct cloud fraction. This needs to be requested with the same time profile
as 2.346.
[lbproc=128, blev=
P220220.0
]
 longitude latitude p220 time 1 cftables ok HadREM-CP4A_mappings.cfg
cli Amon CFday APmonLev APdayLev 
m01s02i309GRIDBOX LSC Qcf IN RADIATION   KG/KG
Grid box average of large-scale cloud ice water mixing ratio
[lbproc=128]
noteWhen McICA is used with convective cores, the large-scale diagnostics contain all condensate. No need to add convective because the convection diagnostics contain zeroes.
 longitude latitude alevel time kg kg-1 cftables cloud ok HadREM-CP4A_mappings.cfg
clic CFmon APmonLev 
m01s02i319GRIDBOX CONVECTIVE CORE Qcf    KG/KG
Three-dimensional distribution of gridbox average ice mixing ratio of the
convective cloud core. This is diagnosed when McICA is used and convective
cores are seen by radiation.
[lbproc=128]
 longitude latitude alevel time 1 cftables ok HadREM-CP4A_mappings.cfg
climodis Emon APmon 
m01s02i453COSP: MODIS ICE CLOUD FRACTION
Ice cloud fraction from MODIS. Reported on sunlit points only.
It needs mask 2.330.
[lbproc=128] / 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=128]
 longitude latitude time 1 cloud ok HadREM-CP4A_mappings.cfg
clis CFmon APmonLev 
m01s02i309GRIDBOX LSC Qcf IN RADIATION   KG/KG
Grid box average of large-scale cloud ice water mixing ratio
[lbproc=128] - 
m01s02i319GRIDBOX CONVECTIVE CORE Qcf    KG/KG
Three-dimensional distribution of gridbox average ice mixing ratio of the
convective cloud core. This is diagnosed when McICA is used and convective
cores are seen by radiation.
[lbproc=128]
noteWhen McICA is used with convective cores, the large-scale diagnostics contain all condensate. No need to add convective because the convection diagnostics contain zeroes.
 longitude latitude alevel time 1 cftables embargoed HadREM-CP4A_mappings.cfg
clisccp CFmon CFday APday APmon 
divide_by_mask(
m01s02i337COSP: ISCCP CTP-TAU HISTOGRAM
Cloud fraction in 7x7 CTP-tau bins. The pseudo-level dimension contains the
tau axis, with intervals:
[ 0.0,  0.3)
[ 0.3,  1.3)
[ 1.3,  3.6)
[ 3.6,  9.4)
[ 9.4, 23.0)
[23.0, 60.0)
[60.0,  inf)

Reported on sunlit points only (mask 2.330).
[blev=
PLEV7C900.0 740.0 620.0 500.0 375.0 245.0 90.0
, lbproc=128],

m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=128])
 longitude latitude plev7c tau time 1 cloud ok HadREM-CP4A_mappings.cfg
clivi Amon CFday APmon APday 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]
 longitude latitude time kg m-2 cftables cloud ok HadREM-CP4A_mappings.cfg
clivic Eday APday 
m01s02i396CONVECTIVE CORE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2319) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]
 longitude latitude time kg m-2 cloud ok HadREM-CP4A_mappings.cfg
cllcalipso CFday CFmon APday APmon 
m01s02i344COSP: CALIPSO LOW-LEVEL CLOUD
Low-level cloud fraction from CALIPSO simulator. 680 hPa <= CTP.
Needs mask 2.321.
[lbproc=128, blev=
P840840.0
]
/ 
m01s02i321COSP: MASK FOR 2.344
Heaviside function needed to identify missing data for low-level cloud fraction
from CALIPSO (2.344), 0=missing, 1=ok. You need to divide 2.344/2.321 to get the
correct cloud fraction. This needs to be requested with the same time profile
as 2.344.
[lbproc=128, blev=
P840840.0
]
 longitude latitude p840 time 1 cftables ok HadREM-CP4A_mappings.cfg
clmcalipso CFday CFmon APday APmon 
m01s02i345COSP: CALIPSO MID-LEVEL CLOUD
Mid-level cloud fraction from CALIPSO simulator. 440 hPa <= CTP < 680 hPa.
Needs mask 2.322.
[lbproc=128, blev=
P560560.0
]
/ 
m01s02i322COSP: MASK FOR 2.345
Heaviside function needed to identify missing data for mid-level cloud fraction
from CALIPSO (2.345), 0=missing, 1=ok. You need to divide 2.345/2.322 to get the
correct cloud fraction. This needs to be requested with the same time profile
as 2.345.
[lbproc=128, blev=
P560560.0
]
 longitude latitude p560 time 1 cftables ok HadREM-CP4A_mappings.cfg
clmisr Emon APmon 
fix_clmisr_height(
m01s02i360COSP: MISR CTH-TAU HISTOGRAM
Cloud fraction in 16x7 CTH-tau bins. The pseudo-level dimension contains the
tau axis, with intervals:
[ 0.0,  0.3)
[ 0.3,  3.6)
[ 3.6,  9.4)
[ 9.4, 23.0)
[23.0, 60.0)
[60.0,  inf)

The vertical leves are unevenly-spaced, with boundaries (m):
(-99000,     0] - > Cloud can be detected but too thin to get CTH
(     0,   500]
(   500,  1000]
(  1000,  1500]
(  1500,  2000]
(  2000,  2500]
(  2500,  3000]
(  3000,  4000]
(  4000,  5000]
(  5000,  7000]
(  7000,  9000]
(  9000, 11000]
( 11000, 13000]
( 13000, 15000]
( 15000, 17000]
( 17000, 99000]
[lbproc=128], 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=128])
 longitude latitude alt16 tau time 1 cloud ok HadREM-CP4A_mappings.cfg
cls CFmon APmonLev 
m01s02i312GRIDBOX LIQ LSC CF IN RADIATION
Grid box average of large-scale liquid cloud fraction
[lbproc=128] + 
m01s02i313GRIDBOX ICE LSC CF IN RADIATION
Grid box average of large-scale ice cloud fraction
[lbproc=128]
- 
m01s02i317CONVECTIVE CORE 3D CLOUD FRACTION
Three-dimensional distribution of convective core cloud fraction. This is
diagnosed when McICA is used and convective cores are seen by radiation.
[lbproc=128]
 longitude latitude alevel time 1 cftables ok HadREM-CP4A_mappings.cfg
clt GC1hr 3hr Amon day AP3hr APday APmon 
m01s02i204TOTAL CLOUD AMOUNT IN LW RADIATION
The total cloud amount seen in LW radiation. This diagnostic is caclulated
in a manner consistent with the assumption made about the overlapping of
cloud in different layers in the vertical: overlaps are treated
consistently in the SW and LW, so this diagnostic represents cloud in
both spectral regions.

Calculations are made only on radiation timesteps.
[lbproc=128]
 longitude latitude time 1 cloud ok HadREM-CP4A_mappings.cfg
cltcalipso CFday CFmon APmon APday 
m01s02i347COSP: CALIPSO TOTAL CLOUD FRACTION
Total cloud fraction from CALIPSO simulator. Needs mask 2.324.
[lbproc=128] / 
m01s02i324COSP: MASK FOR 2.347
Heaviside function needed to identify missing data for total cloud fraction from
CALIPSO (2.347), 0=missing, 1=ok. You need to divide 2.347/2.324 to get the
correct cloud fraction. This needs to be requested with the same time profile
as 2.347.
[lbproc=128]
 longitude latitude time 1 cftables ok HadREM-CP4A_mappings.cfg
cltisccp CFday CFmon APday APmon 
m01s02i334COSP: ISCCP TOTAL CLOUD AREA
Total cloud area from ISCCP simulator. Reported on sunlit points only.
It needs mask 2.330.
[lbproc=128] / 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=128]
 longitude latitude time 1 cftables ok HadREM-CP4A_mappings.cfg
cltmodis Emon APmon 
m01s02i451COSP: MODIS WEIGHTED TOT. CLOUD AREA
Total cloud fraction from MODIS. Reported on sunlit points only.
It needs mask 2.330.
[lbproc=128] / 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=128]
 longitude latitude time 1 cloud ok HadREM-CP4A_mappings.cfg
clw Amon CFday APdayLev APmonLev 
m01s02i308GRIDBOX LSC Qcl IN RADIATION   KG/KG
Grid box average of large-scale cloud liquid water mixing ratio
[lbproc=128]
noteWhen McICA is used with convective cores, the large-scale diagnostics contain all condensate. No need to add convective because the convection diagnostics contain zeroes.
 longitude latitude alevel time kg kg-1 cftables cloud ok HadREM-CP4A_mappings.cfg
clwc CFmon APmonLev 
m01s02i318GRIDBOX CONVECTIVE CORE Qcl    KG/KG
Three-dimensional distribution of gridbox average liquid mixing ratio of the
convective cloud core. This is diagnosed when McICA is used and convective
cores are seen by radiation.
[lbproc=128]
 longitude latitude alevel time 1 cftables ok HadREM-CP4A_mappings.cfg
clwmodis Emon APmon 
m01s02i452COSP: MODIS LIQUID CLOUD FRACTION
Liquid cloud fraction from MODIS. Reported on sunlit points only.
It needs mask 2.330.
[lbproc=128] / 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=128]
 longitude latitude time 1 cloud ok HadREM-CP4A_mappings.cfg
clws CFmon APmonLev 
m01s02i308GRIDBOX LSC Qcl IN RADIATION   KG/KG
Grid box average of large-scale cloud liquid water mixing ratio
[lbproc=128] - 
m01s02i318GRIDBOX CONVECTIVE CORE Qcl    KG/KG
Three-dimensional distribution of gridbox average liquid mixing ratio of the
convective cloud core. This is diagnosed when McICA is used and convective
cores are seen by radiation.
[lbproc=128]
noteWhen McICA is used with convective cores, the large-scale diagnostics contain all condensate. No need to add convective because the convection diagnostics contain zeroes.
 longitude latitude alevel time 1 cftables embargoed HadREM-CP4A_mappings.cfg
clwvi Amon CFday APday APmon 
m01s02i391LARGE SCALE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2308) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128] + 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]
 longitude latitude time kg m-2 cftables cloud ok HadREM-CP4A_mappings.cfg
clwvic Eday Emon APday APmon 
m01s02i395CONVECTIVE CORE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2318) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128] + 
m01s02i396CONVECTIVE CORE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2319) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]
 longitude latitude time kg m-2 cloud ok HadREM-CP4A_mappings.cfg
cly AERmonZ AEmonZ 
MOLECULAR_MASS_OF_AIR28.97

* ((
m01s51i041Cl MASS MIXING RATIO ON PRESS LEVS
Chlorine Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_CHLORINE35.5
)
+ (
m01s51i042ClO MASS MIX RATIO ON PRESS LEVS
Chlorine monoxide Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_CLOX51.5
)
+ (2 * 
m01s51i043Cl2O2 MASS MIX RATIO ON PRESS LEVS
Cl2O2 (chlorine monoxide dimer) Mass Mixing Ratio in kg/kg
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_CL2O2103.
)
+ (
m01s51i044OClO MASS MIX RATIO ON PRESS LEVS
Chlorine Dioxide Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_OCLO67.5
)
+ (
m01s51i047BrCl  MASS MIX RATIO ON PRESS LEVS
BrCl MASS MIXING RATIO AFTER TSTEP
Bromine monochloride Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_BRCL115.5
)
+ (
m01s51i051HOCl MASS MIX RATIO ON PRESS LEVS
Hydrochlorous acid Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_HOCL52.5
)
+ (
m01s51i054ClONO2 MASS MIX RATIO ON PRESS LEVS
Chlorine Nitrate Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_CLONO297.5
)
+ (
m01s51i992HCl MASS MIXING RATIO ON P LEVS
Mass mixing ratio of HCl (kg/kg)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_HCL36.5
))
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
co AERmon CresAERday AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_CO28.
)
* 
m01s34i010CO MASS MIXING RATIO AFTER TSTEP
Carbon Monoxide Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
co2mass Amon APmon 
m01s30i465ATMOSPHERIC CO2 BURDEN IN kg(CO2)
Total mass of CO2 in the atmosphere in kg(CO2)

In concentration-driven runs (i_co2_opt=1 or 2) the total co2 mass in kg
is the prescribed mass mixing ratio multiplied by the dry weight of the
atmosphere.

In emissions-driven runs (i_co2_opt=3) the total co2 mass (total_co2) is
the total tracer mass determined from the 3D atmospheric CO2 field.

The diagnostic is output as a scalar.

[lbproc=128]
commentUnits are kg(CO2)
 time kg carbon ok HadREM-CP4A_mappings.cfg
cod AERday AERmon AEday AEmon 
m01s02i332COSP: ISCCP WEIGHTED CLOUD TAU
In-cloud optical depth, multiplied by total cloud fraction (2.334). Time-averages
of this diagnostic will have to be unweighted(divided) by the time-average of
2.334 to produce mean in-cloud values. A linear average in cloud albedo is
performed, and the the albedo converted to optical depth using the ISCCP
formulation. Reported on sunlit points only. No need to use Heaviside weights
for time-means.
[lbproc=128] / 
m01s02i334COSP: ISCCP TOTAL CLOUD AREA
Total cloud area from ISCCP simulator. Reported on sunlit points only.
It needs mask 2.330.
[lbproc=128]
 longitude latitude time 1 cloud ok HadREM-CP4A_mappings.cfg
concdust Emon APmonLev 
m01s17i257TOTAL DUST CONC (microg/m3)
The total mineral dust aerosol concentration (summed over all
size divisions) on model levels at the end of the atmospheric
timestep.

Units are microgrammes per cubic metre.
[lbproc=128]
 longitude latitude alevel time ug m-3 dust ok HadREM-CP4A_mappings.cfg
cw Eday LPday 
m01s08i209[lbproc=128]
 longitude latitude time kg m-2 land ok HadREM-CP4A_mappings.cfg
depdust Emon AEmon 
m01s03i440TOTAL DUST DEPOSITION FLUX KG/M2/S
The total dust deposition flux is calculated by adding together all
the dust deposition fluxes (all 6 divisions for dust dry deposition
fluxes from both levels 1 and 2 and the wet deposition fluxes from
both large-scale and convective precipitation).

Available only if the six bin dust scheme is used.
[lbproc=128]
commentIncludes deposition of particles emitted and immediately deposited within the same timestep without interacting with model atmosphere (i.e. falling back onto surface, instead of being transported into atmosphere).
 longitude latitude time kg m-2 s-1 dust ok HadREM-CP4A_mappings.cfg
deptho Ofx OPfx 
deptho
 longitude latitude m ocean ok HadREM-CP4A_mappings.cfg
difvho Oyr OPyrLev 
difvho
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time m2 s-1 ocean embargoed HadREM-CP4A_mappings.cfg
difvso Oyr OPyrLev 
difvso
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time m2 s-1 ocean embargoed HadREM-CP4A_mappings.cfg
dispkexyfo Oyr OPyr 
dispkexyfo
 longitude latitude time W m-2 ocean embargoed HadREM-CP4A_mappings.cfg
dms AERmon AEmonLev 
m01s34i071DMS MASS MIXING RATIO AFTER TIMESTEP
Dimethyl Sulphide Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
* (
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_DMS62.1
)
 longitude latitude alevel time mol mol-1 aerosol ok HadREM-CP4A_mappings.cfg
drydust AERmon CresAERday AEmon 
m01s03i441Dust dry dep flux from lev 1 div 1
Flux of mineral dust (division 1) deposited to ground from the first theta level
by dry deposition processes. (kg m-2 s-1)
[lbproc=128] + 
m01s03i442Dust dry dep flux from lev 1 div 2
Flux of mineral dust (division 2) deposited to ground from the first
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128]
+ 
m01s03i443Dust dry dep flux from lev 1 div 3
Flux of mineral dust (division 3) deposited to ground from the first theta level
by dry deposition processes. (kg m-2 s-1)
[lbproc=128] + 
m01s03i444Dust dry dep flux from lev 1 div 4
Flux of mineral dust (division 4) deposited to ground from the first
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128] + 
m01s03i445Dust dry dep flux from lev 1 div 5
Flux of mineral dust (division 5) deposited to ground from the first
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128]
+ 
m01s03i446Dust dry dep flux from lev 1 div 6
Flux of mineral dust (division 6) deposited to ground from the first
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128] + 
m01s03i451Dust dry dep flux from lev 2 div 1
Flux of mineral dust (division 1) deposited to ground from the second
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128] + 
m01s03i452Dust dry dep flux from lev 2 div 2
Flux of mineral dust (division 2) deposited to ground from the second
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128]
+ 
m01s03i453Dust dry dep flux from lev 2 div 3
Flux of mineral dust (division 3) deposited to ground from the second
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128] + 
m01s03i454Dust dry dep flux from lev 2 div 4
Flux of mineral dust (division 4) deposited to ground from the second
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128] + 
m01s03i455Dust dry dep flux from lev 2 div 5
Flux of mineral dust (division 5) deposited to ground from the second
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128]
+ 
m01s03i456Dust dry dep flux from lev 2 div 6
Flux of mineral dust (division 6) deposited to ground from the second
theta level by dry deposition processes. (kg m-2 s-1)
[lbproc=128]
commentIncludes deposition of particles emitted and immediately deposited within the same timestep without interacting with model atmosphere (i.e. falling back onto surface, instead of being transported into atmosphere).
noteAssumes CLASSIC dust.
 longitude latitude time kg m-2 s-1 dust ok HadREM-CP4A_mappings.cfg
dryo3 AERmon AEmon 
achem_emdrywet(
MOLECULAR_MASS_OF_O348.
,

m01s50i131STRAT MISC: O3 DRY DEPOSITION (3D)
Stratospheric O3 Dry Deposition Rate (3D)
(moles(Ox)/s)
Valid only on chemical timesteps


This is the total dry deposition flux of ozone in each gridbox

The sum of this chemical flux over all model gridboxes gives the total
number of moles of O3 removed by this process per second in the
whole model.
[lbproc=128], sumlev='True', areadiv='True')
 longitude latitude time g m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
ec Eday LPday 
m01s03i297EVAP FROM CANOPY : RATE      KG/M2/S
Rate of evaporation from canopy (kg/m2/s).

Available on land points only.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
ec550aer Emon AEmonLev 
m01s02i530UKCA 3D AEROSOL EXTINCTION
Aerosol extinction coefficient in units m-1 from UKCA RADAER
summed over all available and optically active aerosol modes.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
To output this diagnostic the domain should specify both the
model theta levels desired for output, and a list of pseudo-levels
corresponding to the desired radiation bands for calculating
aerosol optical depth.

The integral of this diagnostic with height through the full
atmospheric column should be equal to the total optical depth
from UKCA RADAER (for the same wavelength(s)).
[lbplev=3, lbproc=128]
+ 
m01s02i540CLASSIC 3D AEROSOL EXTINCTION
Aerosol extinction coefficient in units m-1 from CLASSIC aerosols
summed over all available and optically active aerosol types.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
To output this diagnostic the domain should specify both the
model levels desired for output, and a list of pseudo-levels
corresponding to the desired radiation bands for calculating
aerosol optical depth.

The integral of this diagnostic with height through the full
atmospheric column should be equal to the total optical depth from
CLASSIC (for the same wavelength(s)).
[lbplev=3, lbproc=128]
 longitude latitude alevel lambda550nm time m-1 aerosol ok HadREM-CP4A_mappings.cfg
emibc AERmon AEmon 
achem_emdrywet(
ATOMIC_MASS_OF_C12.
,

m01s38i207PRIMARY BLACK CARBON TO AITKEN (INS)
Primary emissions flux of black carbon aerosol mass
to Aitken mode (insoluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128], sumlev='True', areadiv='True')
 longitude latitude time g m-2 s-1 aerosol ok HadREM-CP4A_mappings.cfg
emibvoc AERmon AEmon 
(
m01s03i495ISOPRENE SURF EMIS       KG C/M2/S
Gridbox total isoprene emissionfrom plants):

Emission rate of isoprene (C5H8) for each gridcell in kgC/m2/s.
[lbproc=128] + 
m01s03i496TERPENE SURF EMIS       KG C/M2/S
Gridbox total terpenes terpene from plants:

Emission rate of terpenes (as C10H16) for each gridcell in kgC/m2/s.
Note: terpenes are a lumped species representing a whole class of compounds.
 UKCA assigns the molecular mass of a-pinene to this class,
 which has the formula C10H16.
[lbproc=128]) *
m01s00i505
commentIsoprene and Monoterpene only. Acetone and Methanol, although produced by JULES are not used by UKCA, which these reads from ancillary. Reported as C.
 longitude latitude time kg m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
emico AERmon AEmon 
m01s50i158CO surf emissions (kg m-2 s-1)
Surface emission flux of carbon monoxide (2D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128]
 longitude latitude time kg m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
emidms AERmon AEmon 
m01s50i214DMS surf emissions (kg m-2 s-1)
Surface emission flux of DMS
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128]
 longitude latitude time kg m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
emidust AERmon AEmon 
m01s03i401Dust emissions div 1 (kg/m2/s)
Mineral dust division 1 emission flux (kg m-2 s-1)

This field is available even when the prognostic dust scheme is off if
the user has selected to diagnose mineral dust emissions only.
[lbproc=128] + 
m01s03i402Dust emissions div 2 (kg/m2/s)
Mineral dust division 2 emission flux (kg m-2 s-1)

This field is available even when the prognostic dust scheme is off if
the user has selected to diagnose mineral dust emissions only.
[lbproc=128]
+ 
m01s03i403Dust emissions div 3 (kg/m2/s)
Mineral dust division 2 emission flux (kg m-2 s-1)

This field is available even when the prognostic dust scheme is off if
the user has selected to diagnose mineral dust emissions only.
[lbproc=128] + 
m01s03i404Dust emissions div 4 (kg/m2/s)
Mineral dust division 4 emission flux (kg m-2 s-1)

This field is available even when the prognostic dust scheme is off if
the user has selected to diagnose mineral dust emissions only.
[lbproc=128] + 
m01s03i405Dust emissions div 5 (kg/m2/s)
Mineral dust division 5 emission flux (kg m-2 s-1)

This field is available even when the prognostic dust scheme is off if
the user has selected to diagnose mineral dust emissions only.
[lbproc=128]
+ 
m01s03i406Dust emissions div 6 (kg/m2/s)
Mineral dust division 6 emission flux (kg m-2 s-1)

This field is available even when the prognostic dust scheme is off if
the user has selected to diagnose mineral dust emissions only.
[lbproc=128]
commentIncludes deposition of particles emitted and immediately deposited within the same timestep without interacting with model atmosphere (i.e. falling back onto surface, instead of being transported into atmosphere).
noteAssumes CLASSIC dust.
 longitude latitude time kg m-2 s-1 dust ok HadREM-CP4A_mappings.cfg
emiisop AERmon AEmon 
(
MOLECULAR_MASS_OF_ISOPRENE68.
 / (5.0 * 
ATOMIC_MASS_OF_C12.
))
* (
m01s03i495ISOPRENE SURF EMIS       KG C/M2/S
Gridbox total isoprene emissionfrom plants):

Emission rate of isoprene (C5H8) for each gridcell in kgC/m2/s.
[lbproc=128] * m01s00i505)
commentIncludes Land/Biogenic isoprene only
 longitude latitude time kg m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
emilnox AERmon AEmonLev 
m01s50i081LIGHTNING NOx EMISSIONS 3D
Lightning NOx Emissions (3D) : moles/gridcell/s
Valid on all timesteps
[lbproc=128]
 longitude latitude alevel time mol s-1 chemistry ok HadREM-CP4A_mappings.cfg
eminox AERmon AEmon 
achem_emdrywet(1.0,

m01s50i172NO emiss from aircraft (kg m-2 s-1)
Emissions of nitrogen monoxide from aircraft (3D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128], cube2d=
m01s50i156NO surf emissions (kg m-2 s-1)
Surface emission flux of nitrogen monoxide (2D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128],
sumlev='True')
commentIncludes surface anthropogenic and Aircraft NO, not Lightning NOx
 longitude latitude time kg m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
emiso2 AERmon AEmon 
achem_emdrywet(1.0,

m01s50i217SO2 natural emissions (kg m-2 s-1)
Emissions of SO2 from natural sources (3D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128], cube2d=(
m01s50i215SO2 surf emissions (kg m-2 s-1)
Surface emission flux of anthropogenic SO2
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128]
+ 
m01s50i216SO2 high lev emissions (kg m-2 s-1)
High-level emission flux of anthropogenic SO2.
2D field representing above-surface sources of SO2,
such as power station chimneys. Height of injection
into atmosphere is controlled by emission file
metadata (see UMDP84).
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128]), sumlev='True')
 longitude latitude time kg m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
emiso4 AERmon AEmon 
achem_emdrywet(
MOLECULAR_MASS_OF_SO496.
,

m01s38i201PRIMARY H2SO4 TO AITKEN (SOL)
Primary emissions flux of sulphuric acid aerosol mass to
Aitken mode (soluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128] + 
m01s38i202PRIMARY H2SO4 TO ACCUMULATION (SOL)
Primary emissions flux of sulphuric acid aerosol mass to
accumulation mode (soluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128] + 
m01s38i203PRIMARY H2SO4 TO COARSE (SOL)
Primary emissions flux of sulphuric acid aerosol mass to
coarse mode (soluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128],
sumlev='True', areadiv='True')
noteModel output is mol H2SO4, diagnostic required kg SO4. Step 1: mol H2SO4 x mol_mass_h2so4 yields kg H2SO4. Step 2: kg H2SO4 x (mol_mass_so4 / mol_mass_h2so4) yields kg SO4. 1+2: mol H2SO4 x mol_mass_h2so4 x (mol_mass_so4 / mol_mass_h2so4) -> kg SO4. Cancelling common term mol_mass_h2so4 leaves the conversion as model output (mol H2SO4) x mol_mass_so4 -> diagnostic (kg SO4).
 longitude latitude time g m-2 s-1 aerosol ok HadREM-CP4A_mappings.cfg
emiss AERmon AEmon 
achem_emdrywet(
MOLECULAR_MASS_OF_NACL58.44
,

m01s38i204PRIMARY SEA-SALT TO ACCUMULTN (SOL)
Primary emissions flux of sea salt aerosol mass to
accumulation mode (soluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128] + 
m01s38i205PRIMARY SEA-SALT TO COARSE (SOL)
Primary emissions flux of sea salt aerosol mass to
coarse mode (soluble)
Valid on all timesteps

Total flux (as moles/s) in the gridbox
[lbproc=128],
sumlev='True', areadiv='True')
 longitude latitude time g m-2 s-1 aerosol ok HadREM-CP4A_mappings.cfg
emivoc AERmon AEmon 
((
m01s50i159HCHO surf emissions (kg m-2 s-1)
Surface emission flux of formaldehyde (2D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128] / 
MOLECULAR_MASS_OF_HCHO30.
)
+ (
m01s50i160C2H6 surf emissions (kg m-2 s-1)
Surface emission flux of ethane (2D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128] * (2.0 / 
MOLECULAR_MASS_OF_C2H630.
))
+ (
m01s50i161C3H8 surf emissions (kg m-2 s-1)
Surface emission flux of propane (2D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128] * (3.0 / 
MOLECULAR_MASS_OF_C3H844.
))
+ (
m01s50i162Me2CO surf emissions (kg m-2 s-1)
Surface emission flux of acetone (2D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128] * (3.0 / 
MOLECULAR_MASS_OF_ME2CO58.
))
+ (
m01s50i163MeCHO surf emissions (kg m-2 s-1)
Surface emission flux of acetaldehyde (2D)
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128] * (2.0 / 
MOLECULAR_MASS_OF_MECHO44.
))
+ (
m01s50i212MeOH surf emissions (kg m-2 s-1)
Surface emission flux of methanol in kg (MeOH) m-2 s-1
If emissions are read in grouped as Non-Volatile Organic
Carbon, this field will contain MeOH as 0.215 * NVOC
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128] / 
MOLECULAR_MASS_OF_MEOH32.
)
+ (
m01s50i300C5H8 emission flux (kg m-2 s-1)
Diagnostic to check the total C5H8 (isoprene) surface emission
flux in-situ, i.e., in the UKCA emission code where the emissions
are actually added to the chemistry. It serves as an in-code
sanity check.

Available if chemistry is turned on in UKCA
[lbproc=128] * (5.0 / 
MOLECULAR_MASS_OF_ISOPRENE68.
))
+ (
m01s50i301Monoterp emission flux (kg m-2 s-1)
Diagnostic to check the total Monoterp (terpene) surface emission
flux in-situ, i.e., in the UKCA emission code where the emissions
are actually added to the chemistry. It serves as an in-code
sanity check.

Available if chemistry is turned on in UKCA
[lbproc=128] * (10.0 / 
MOLECULAR_MASS_OF_MONOTERPENE136.24
)))
* 
ATOMIC_MASS_OF_C12.
 longitude latitude time kg m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
eow Eday GCLmon LPday 
m01s03i288TRANSPIRATION+SOIL EVP ON TILES
Uptake of vegetation carbon by photosythesis, for each Plant Functional Type
(PFT):

1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub

Subtraction of carbon loss by plant respiration (item 1, 3, 292)
gives Net Primary Productivity (item 1, 3, 291).
[lbplev=7, lbproc=128]
 longitude latitude time kg m-2 s-1 land embargoed HadREM-CP4A_mappings.cfg
epfy EdayZ EmonZ APdayZ APmonZ 
scale_epflux(
m01s30i312ELIASSEN-PALM FLUX (MERID. COMPNT)
Meridional component of Eliassen-Palm flux. The EP flux is a
vector quantity involving the northward eddy fluxes of heat and
angular momentum. The Eliassen-Palm theorm states that the divergence
is zero for steady conservative wavelike disturbances of zonal wind.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192],

m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192])
 latitude plev39 time m3 s-2 atmos-physics ok HadREM-CP4A_mappings.cfg
epfz EdayZ EmonZ APdayZ APmonZ 
scale_epflux(
m01s30i313ELIASSEN-PALM FLUX (VERT. COMPNT)
Vertical component of Eliassen-Palm flux. The EP flux is a
vector quantity involving the northward eddy fluxes of heat and
angular momentum. The Eliassen-Palm theorm states that the divergence
is zero for steady conservative wavelike disturbances of zonal wind.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192],

m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192])
 latitude plev39 time m3 s-2 atmos-physics ok HadREM-CP4A_mappings.cfg
es Eday LPday 
m01s03i296EVAP FROM SOIL SURF : RATE   KG/M2/S
Rate of evaporation from soil surface (kg/m2/s).

Available on land points only.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
et Eday 
m01s03i223SURFACE TOTAL MOISTURE FLUX  KG/M2/S
Moisture flux profile, on model half levels, with the first
value being the surface moisture flux.

Available on all timesteps.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land embargoed HadREM-CP4A_mappings.cfg
evs Omon OPmon 
correct_evaporation(evs, sowaflup - (evs - (ficeberg
+ friver + prsn + pr + fsitherm) ), areacello)
 longitude latitude time kg m-2 s-1 ocean ok HadREM-CP4A_mappings.cfg
evspsbl Amon Eday APmon LPday 
m01s03i223SURFACE TOTAL MOISTURE FLUX  KG/M2/S
Moisture flux profile, on model half levels, with the first
value being the surface moisture flux.

Available on all timesteps.
[lbproc=128]
 longitude latitude time kg m-2 s-1 boundary-layer ok HadREM-CP4A_mappings.cfg
evspsblpot Emon LPmon 
m01s03i334LAND MEAN POTENTIAL EVAPORATION
Diagnostic of the land mean potential evaporation rate (kg/m2/s).
Potential evaporation here is defined as the evapotranspiration that
would occur if the soil and vegetation surfaces are saturated.
This is calculated by taking the ratio of the explicit actual and
potential evapotranspiration fluxes. This ratio is used to calculate
the total (i.e. explicit flux and implicit correction term to account
for changes during the timestep) potential evapotranspiration from the
total actual evapotranspiration. (The implicit correction for potential
evapotranspiration cannot be calculated directly as the surface and
boundary layer states are consistent with the actual evapotranspiration
and not the potential evaporation flux).
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
evspsblsoi Lmon LPmon 
m01s03i296EVAP FROM SOIL SURF : RATE   KG/M2/S
Rate of evaporation from soil surface (kg/m2/s).

Available on land points only.
[lbproc=128] + 
m01s03i298SUBLIM. SURFACE (GBM) : RATE KG/M2/S
GridBox Mean rate of sublimation from the surface (kg/m2/s).

On land points, this is the gridbox mean of the rate of sublimation from the
tiled surface types, weighted by the associated tile fraction. The sublimation
is from overlying snow, with a different rate for each surface type; these
can be output individually by diagnostic
(1, 3, 331): SUBLIMATION MOISTURE FLUX ON TILES.

On ocean points it is the sublimation from sea-ice, if present, weighted by
the fraction of the ocean covered by ice.

On coastal points which are part-land and part-ocean, the sublimation
from each is combined, weighted by land / ocean fraction as appropriate.
[lbproc=128]
- 
m01s03i539TRANSPIRATION GRIDBOX MEAN (kg/m2/s)
contribution to evapotranspiration that is subject to stomatal resistance
calculated from transpiration on tiles.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
evspsblveg Lmon LPmon 
m01s03i297EVAP FROM CANOPY : RATE      KG/M2/S
Rate of evaporation from canopy (kg/m2/s).

Available on land points only.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
fgdms Omon OBmon 
calc_fgdms(m01s00i505, 
m01s50i214DMS surf emissions (kg m-2 s-1)
Surface emission flux of DMS
kg m-2 s-1
Valid on all timesteps

Available only if NetCDF emission system of UKCA is used
[lbproc=128]
/ 
MOLECULAR_MASS_OF_DMS62.1
 )
commentDerived from DMS flux in the Atmospheric model, which is calculated using the ocean surface DMS concentration
 longitude latitude depth0m time kmol m-2 s-1 chemistry ok HadREM-CP4A_mappings.cfg
ficeberg Omon OPmonLev 
sum_2d_and_3d(ficeberg, -1*vowflisf)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg m-2 s-1 ocean ok HadREM-CP4A_mappings.cfg
flandice Emon OPmon 
sowflisf + berg_calve
 longitude latitude time kg m-2 s-1 icesheet embargoed HadREM-CP4A_mappings.cfg
flashrate Emon ACmon 
div_by_area(
m01s50i082LIGHTNING DIAGNOSTIC: TOT FLASHES 2D
Total Lightning Flashes (2D) : no. of flashes/column/min
Valid on all timesteps
[lbproc=128])
 longitude latitude time m-2 min-1 chemistry ok HadREM-CP4A_mappings.cfg
friver Omon OPmon 
friver
 longitude latitude time kg m-2 s-1 ocean ok HadREM-CP4A_mappings.cfg
fsitherm Omon OPmon 
fsitherm
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
gpp E3hr LP3hr 
m01s03i261GROSS PRIMARY PRODUCTIVITY KG C/M2/S
Grid-box average uptake of vegetation carbon by photosynthesis

Subtraction of carbon loss by plant respiration (item 1, 3, 263)
gives Net Primary Productivity (item 1, 3, 262). It is not scaled by the land
fraction, so when the calculating the global total, multiply by stash (3,395)
FRACTION OF LAND to prevent overestimating the flux on coastal
gridpoints that are partly ocean.
[lbproc=128]
 longitude latitude time kg m-2 s-1 carbon ok HadREM-CP4A_mappings.cfg
h2o CF3hr AP3hrPtLev 
m01s00i010[lbproc=0] + 
m01s00i272RAIN AFTER TIMESTEP
Prognostic rain water content (kg/kg)
[lbproc=0]
+ 
m01s02i308GRIDBOX LSC Qcl IN RADIATION   KG/KG
Grid box average of large-scale cloud liquid water mixing ratio
[lbproc=0] + 
m01s02i309GRIDBOX LSC Qcf IN RADIATION   KG/KG
Grid box average of large-scale cloud ice water mixing ratio
[lbproc=0]
 longitude latitude alevel time1 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hcho AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_HCHO30.
)
* 
m01s34i011HCHO MASS MIXING RATIO AFTER TSTEP
Formaldehyde Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
hcl AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_HCL36.5
)
* 
m01s34i992HCl MASS MIXING RATIO AFTER TIMESTEP
Mass mixing ratio of HCl (kg/kg)
This variable is a prognostic but is not advected.
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
hfbasin Omon OPmonZ 
combine_cubes_to_basin_coord(hfbasin_global, hfbasin_atlantic,
hfbasin_indopacific, mask_global=global_ocean_1D_V,
mask_atl=atlantic_arctic_ocean_1D_V, mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time PW ocean ok HadREM-CP4A_mappings.cfg
hfbasinpadv Omon OPmonZ 
combine_cubes_to_basin_coord(hfbasinpadv_global,
hfbasinpadv_atlantic, hfbasinpadv_indopacific,
mask_global=global_ocean_1D_V, mask_atl=atlantic_arctic_ocean_1D_V,
mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time PW ocean ok HadREM-CP4A_mappings.cfg
hfbasinpmadv Omon OPmonZ 
combine_cubes_to_basin_coord(hfbasinpmadv_global,
hfbasinpmadv_atlantic, hfbasinpmadv_indopacific,
mask_global=global_ocean_1D_V, mask_atl=atlantic_arctic_ocean_1D_V,
mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time PW ocean ok HadREM-CP4A_mappings.cfg
hfbasinpmdiff Omon OPmonZ 
combine_cubes_to_basin_coord(hfbasinpmdiff_global,
hfbasinpmdiff_atlantic, hfbasinpmdiff_indopacific,
mask_global=global_ocean_1D_V, mask_atl=atlantic_arctic_ocean_1D_V,
mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time PW ocean ok HadREM-CP4A_mappings.cfg
hfds Omon OPmon 
hfds
 longitude latitude time W m-2 ocean ok HadREM-CP4A_mappings.cfg
hfdsn Eday LImon LIday 
m01s08i202LAND SNOW MELT HEAT FLUX        W/M2
Flux of heat required to melt the snow calculated on the timestep (W/m2).

Available on land points only.
[lbproc=128]
 longitude latitude time W m-2 snow-permafrost embargoed HadREM-CP4A_mappings.cfg
hfevapds Omon OPmon 
hfevapds
 longitude latitude time W m-2 ocean ok HadREM-CP4A_mappings.cfg
hfgeou Ofx OPfx 
hfgeou
 longitude latitude W m-2 ocean ok HadREM-CP4A_mappings.cfg
hfibthermds Omon OPmonLev 
sum_2d_and_3d(-1*berg_latent_heat_flux, vohflisf)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time W m-2 ocean ok HadREM-CP4A_mappings.cfg
hfls GC1hr 3hr Amon day AP3hr APday APmon 
m01s03i234[lbproc=128]
 longitude latitude time W m-2 boundary-layer ok HadREM-CP4A_mappings.cfg
hfrainds Omon OPmon 
hfrainds
 longitude latitude time W m-2 ocean ok HadREM-CP4A_mappings.cfg
hfrunoffds Omon OPmonLev 
sum_2d_and_3d(hflx_rnf, -1*vohfcisf)
commentRunoff, iceshelf and iceberg is entering into the ocean at respectively SST, -1.9 and 0C. This variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time W m-2 ocean ok HadREM-CP4A_mappings.cfg
hfsifrazil2d Omon OPmon 
frazil * 
ICE_DENSITY917.
 * 
LATENT_HEAT_OF_FREEZING334000.

/ (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time W m-2 seaice embargoed HadREM-CP4A_mappings.cfg
hfss GC1hr 3hr Amon day AP3hr APday APmon 
m01s03i217SURFACE SENSIBLE  HEAT FLUX     W/M2
Sensible heat flux at the surface, single level field.
Available on all timesteps.
[lbproc=128]
 longitude latitude time W m-2 boundary-layer ok HadREM-CP4A_mappings.cfg
hfx Omon OPmon 
mask_copy(hfx, mask_2D_U)
 longitude latitude time W ocean ok HadREM-CP4A_mappings.cfg
hfy Omon OPmon 
mask_copy(hfy, mask_2D_V)
 longitude latitude time W ocean ok HadREM-CP4A_mappings.cfg
hno3 AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_HNO363.
)
* 
m01s34i007HONO2 MASS MIXING RATIO AFTER TSTEP
Nitric Acid Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
ho2 AERmonZ AEmonZ 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_HO233.
)
* 
m01s51i082HO2 MASS MIXING RATIO ON PRESS LEVS
Peroxy radical Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
htovgyre Omon OPmonZ 
combine_cubes_to_basin_coord(hfovgyre_global, hfovgyre_atlantic,
hfovgyre_indopacific, mask_global=global_ocean_1D_V,
mask_atl=atlantic_arctic_ocean_1D_V, mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time PW ocean ok HadREM-CP4A_mappings.cfg
htovovrt Omon OPmonZ 
combine_cubes_to_basin_coord(hfovovrt_global, hfovovrt_atlantic,
hfovovrt_indopacific, mask_global=global_ocean_1D_V,
mask_atl=atlantic_arctic_ocean_1D_V, mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time PW ocean ok HadREM-CP4A_mappings.cfg
hur CFday CFmon APdayLev APmonLev 
m01s30i113RH on model levels at end timestep
Relative humidity on model levels at the end of timestep.
[lbproc=128]
 longitude latitude alevel time % cftables ok HadREM-CP4A_mappings.cfg
hur10 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P1010.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
, lbproc=128]
 longitude latitude time p10 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur100 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P1010.0
0, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
0, lbproc=128]
 longitude latitude time p100 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur1000 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P1010.0
00, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
 longitude latitude time p1000 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur150 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P150150.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P150150.0
, lbproc=128]
 longitude latitude time p150 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur20 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P2020.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
, lbproc=128]
 longitude latitude time p20 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur200 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
 longitude latitude time p200 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur250 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P250250.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
 longitude latitude time p250 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur30 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P3030.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
, lbproc=128]
 longitude latitude time p30 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur300 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P3030.0
0, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
 longitude latitude time p300 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur400 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P400400.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
 longitude latitude time p400 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur50 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P5050.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
, lbproc=128]
 longitude latitude time p50 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur500 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P5050.0
0500.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
 longitude latitude time p500 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur600 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P600600.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
 longitude latitude time p600 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur70 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P7070.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
, lbproc=128]
 longitude latitude time p70 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur700 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
 longitude latitude time p700 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur850 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P850850.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
 longitude latitude time p850 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hur925 GCAmon 
m01s30i296RELATIVE HUMIDITY ON P LEV/T GRID
Relative humidity on pressure levels. At T-points in the horizontal.
RH calculated with respect to water above 0C and with respect to ice
below 0C. Set to zero when pressure level is below ground or above
model top: must be divided by heavyside function (30304) to obtain
correct mean.
Units are %
[blev=
P925925.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
 longitude latitude time p925 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hurs 6hrPlev Amon day AP6hr APday APmon 
m01s03i245RELATIVE HUMIDITY AT 1.5M
Calculated from 1.5m q and saturated specific humidity at 1.5m T.

Available on all timesteps.
[lbproc=128]
 longitude latitude height2m time % boundary-layer ok HadREM-CP4A_mappings.cfg
hursmax day APday 
m01s03i245RELATIVE HUMIDITY AT 1.5M
Calculated from 1.5m q and saturated specific humidity at 1.5m T.

Available on all timesteps.
[lbproc=8192]
commentThis is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
 longitude latitude height2m time % boundary-layer embargoed HadREM-CP4A_mappings.cfg
hursmin day APday 
m01s03i245RELATIVE HUMIDITY AT 1.5M
Calculated from 1.5m q and saturated specific humidity at 1.5m T.

Available on all timesteps.
[lbproc=4096]
commentThis is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
 longitude latitude height2m time % boundary-layer embargoed HadREM-CP4A_mappings.cfg
hursminCrop Eday APday 
m01s03i245RELATIVE HUMIDITY AT 1.5M
Calculated from 1.5m q and saturated specific humidity at 1.5m T.

Available on all timesteps.
[lbproc=4096]
 longitude latitude height2m time % boundary-layer embargoed HadREM-CP4A_mappings.cfg
hus Amon Eday 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time 1 atmos-physics ok HadREM-CP4A_mappings.cfg
hus10 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P1010.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
, lbproc=128]
 longitude latitude time p10 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus100 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P1010.0
0, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
0, lbproc=128]
 longitude latitude time p100 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus1000 GCAmon mon day 6hr 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P1010.0
00, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
commenton UV points
 longitude latitude time p1000 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus150 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P150150.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P150150.0
, lbproc=128]
 longitude latitude time p150 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus19 APmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time 1 atmos-physics ok HadREM-CP4A_mappings.cfg
hus20 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P2020.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
, lbproc=128]
 longitude latitude time p20 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus200 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
commenton UV points
 longitude latitude time p200 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus250 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P250250.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
commenton UV points
 longitude latitude time p250 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus27 Emon APmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
 longitude latitude plev27 time 1 atmos-physics ok HadREM-CP4A_mappings.cfg
hus30 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P3030.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
, lbproc=128]
 longitude latitude time p30 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus300 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P3030.0
0, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
commenton UV points
 longitude latitude time p300 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus4 6hrPlev AP6hr 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV4925.0 850.0 500.0 250.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV4925.0 850.0 500.0 250.0
, lbproc=128]
 longitude latitude plev4 time 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus400 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P400400.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
commenton UV points
 longitude latitude time p400 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus50 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P5050.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
, lbproc=128]
 longitude latitude time p50 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus500 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P5050.0
0500.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
commenton UV points
 longitude latitude time p500 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus600 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P600600.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
commenton UV points
 longitude latitude time p600 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus70 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P7070.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
, lbproc=128]
 longitude latitude time p70 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus700 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
commenton UV points
 longitude latitude time p700 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
hus7h 6hrPlevPt AP6hrPt 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 1 atmos-physics ok HadREM-CP4A_mappings.cfg
hus850 Eday GCAmon APday 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P850850.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
commenton UV points
 longitude latitude p850 time 1 atmos-physics ok HadREM-CP4A_mappings.cfg
hus925 GCAmon 
m01s30i295SPECIFIC HUMIDITY ON P LEV/T GRID
Specific humidity on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Dimensionless: kg/kg
[blev=
P925925.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
commenton UV points
 longitude latitude time p925 1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
huss Amon day APday APmon 
m01s03i237SPECIFIC HUMIDITY  AT 1.5M
Estimate of atmospheric specific humidity (g/kg) at 1.5m.
Calculated by integrating the similarity equations from the
surface to 1.5m (surface value taken as saturated specific
humidity at the surface temperature).

Available on all timesteps.
[lbproc=128]
 longitude latitude height2m time 1 boundary-layer ok HadREM-CP4A_mappings.cfg
intuadse Emon APmon 
SPECIFIC_HEAT_OF_DRY_AIR1005.
 * m01s30i425[lbproc=128]
+ m01s30i422[lbproc=128]
 longitude latitude time J m-1 s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
intuaw Emon APmon 
m01s30i462TOTAL MOISTURE FLUX U  RHO GRID
Column-integrated flux of water (vapour, liquid and ice) in the zonal
direction.
Units are kg m^-1 s^-1
[lbproc=128]
 longitude latitude time kg m-1 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
intvadse Emon APmon 
SPECIFIC_HEAT_OF_DRY_AIR1005.
 * m01s30i426[lbproc=128]
+ m01s30i423[lbproc=128]
 longitude latitude time J m-1 s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
intvaw Emon APmon 
m01s30i463TOTAL MOISTURE FLUX V  RHO GRID
Column-integrated flux of water (vapour, liquid and ice) in the meridional
direction.
Units are kg m^-1 s^-1
[lbproc=128]
 longitude latitude time kg m-1 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
isop AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_ISOPRENE68.
)
* 
m01s34i027C5H8 MASS MIXING RATIO AFTER TSTEP
Isoprene Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
jno2 AERmon AEmonLev 
m01s50i229JNO2 (s-1)
Photolysis rate of NO2
s-1
Valid only on chemical timesteps

Available if chemistry and photolysis are turned ON in UKCA
[lbproc=128]
 longitude latitude alevel time s-1 chemistry ok HadREM-CP4A_mappings.cfg
jo2 EmonZ APmonZ 
m01s52i245JO2 (s-1) on pressure levels
Photolysis rate of O2 to O1D and O on pressure levels
s-1

Available if chemistry and photolysis are turned ON in UKCA
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time s-1 chemistry ok HadREM-CP4A_mappings.cfg
jo3 EmonZ APmonZ 
m01s52i246JO3P (s-1) on pressure levels
Photolysis rate of O3 to O3P and O2 on pressure levels
s-1

Available if chemistry and photolysis are turned ON in UKCA
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time s-1 chemistry ok HadREM-CP4A_mappings.cfg
jpdftaureicemodis Emon Eday APday APmon 
jpdftaure_divide_by_mask(m01s02i469[lbproc=128], 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=128])
 longitude latitude plev7c effectRadIc tau time 1 cloud ok HadREM-CP4A_mappings.cfg
jpdftaureliqmodis Emon Eday APmon APday 
jpdftaure_divide_by_mask(m01s02i468[lbproc=128], 
m01s02i330COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS
Heaviside function needed to identify missing data for ISCCP/MISR/MODIS cloud
diagnostics, 0=missing, 1=ok. You need to divide the cloud diagnostics by this
one. This needs to be requested with the same time profile as the cloud
diagnostics.
[lbproc=128])
 longitude latitude plev7c effectRadLi tau time 1 cloud ok HadREM-CP4A_mappings.cfg
loaddust Emon Eday APday APmon 
calc_loaddust(
m01s17i257TOTAL DUST CONC (microg/m3)
The total mineral dust aerosol concentration (summed over all
size divisions) on model levels at the end of the atmospheric
timestep.

Units are microgrammes per cubic metre.
[lbproc=128], 
m01s50i255UKCA Theta Grid Cell Volume (m^3)
Volume of model grid cell represented at theta points, in cubic metres,
as used in the calculation of UKCA diagnostics.
This field should be used for conversion of UKCA diagnostics with units
moles/gridbox/s to moles/m^3/s, for comparison with obs or other models.

Note:This field is only valid for model quantities held on theta points
 and should not be used for any calculations involving quantities
 represented on model rho points e.g. density, or those expected to be
 conserved globally.
[lbproc=128])
 longitude latitude time kg m-2 dust ok HadREM-CP4A_mappings.cfg
lossch4 AERmon AEmonLev 
m01s50i247RXN FLX: CH4 OXIDATION
Flux for the oxidation reactions of Methane (CH4) in (moles/gridbox/s)
This includes reactions of CH4 with Chloride(Cl), hydroxyl(OH) and O(1D)

This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)
[lbproc=128] / 
m01s50i255UKCA Theta Grid Cell Volume (m^3)
Volume of model grid cell represented at theta points, in cubic metres,
as used in the calculation of UKCA diagnostics.
This field should be used for conversion of UKCA diagnostics with units
moles/gridbox/s to moles/m^3/s, for comparison with obs or other models.

Note:This field is only valid for model quantities held on theta points
 and should not be used for any calculations involving quantities
 represented on model rho points e.g. density, or those expected to be
 conserved globally.
[lbproc=128]
commentMonthly averaged atmospheric loss. Includes loss of CH4 by reaction with OH, Cl and O(1D).
 longitude latitude alevel time mol m-3 s-1 chemistry ok HadREM-CP4A_mappings.cfg
lossco AERmon AEmonLev 
m01s50i071CO BUDGET: CO LOSS VIA OH+CO
Chemical reaction flux for CO BUDGET: CO LOSS VIA OH+CO
(moles/s)
Valid only on chemical timesteps

This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)

The sum of this chemical flux over all model gridboxes gives the total
chemical flux through this reaction.
[lbproc=128] / 
m01s50i255UKCA Theta Grid Cell Volume (m^3)
Volume of model grid cell represented at theta points, in cubic metres,
as used in the calculation of UKCA diagnostics.
This field should be used for conversion of UKCA diagnostics with units
moles/gridbox/s to moles/m^3/s, for comparison with obs or other models.

Note:This field is only valid for model quantities held on theta points
 and should not be used for any calculations involving quantities
 represented on model rho points e.g. density, or those expected to be
 conserved globally.
[lbproc=128]
commentMonthly averaged atmospheric loss via reaction with OH.
 longitude latitude alevel time mol m-3 s-1 chemistry ok HadREM-CP4A_mappings.cfg
lwp AERmon AEmon 
m01s02i391LARGE SCALE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2308) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]
 longitude latitude time kg m-2 cloud ok HadREM-CP4A_mappings.cfg
masscello Omon OPmonLev 
masscello
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg m-2 ocean ok HadREM-CP4A_mappings.cfg
masso Omon OPmon 
scvoltot * 
SEAWATER_DENSITY1026.
 time kg ocean ok HadREM-CP4A_mappings.cfg
maxpblz AERday AEday 
m01s03i304TURBULENT MIXING HT AFTER B.LAYER m
Maximum height of turbulent mixing. This will be the same as STASH item
(1, 3, 025) for stable layers (see STASH item (1, 3, 305)), well-mixed
boundary  layers (see STASH item (1, 3, 307)) and for cumulus layers (see
STASH item (1, 3, 310)), with both marking the lifting condensation level
in the latter case. For decoupled boundary layers (see STASH items (1, 3,
306),(1, 3, 308) and (1, 3, 309)), this will mark the top of the
decoupled layer.

Available on all timesteps.
[lbproc=8192]
 longitude latitude time m boundary-layer ok HadREM-CP4A_mappings.cfg
mc Amon CFday APdayLev APmonLev 
(
m01s05i250UPDRAUGHT MASS FLUX (Pa/s)
Updraught mass flux in Pascals/sed

Available on all timesteps.
[lbproc=128] - 
m01s05i251DOWNDRAUGHT MASS FLUX (PA/S)
Downdraught mass flux in Pascals/sed

Available on all timesteps.
[lbproc=128]) / 
ACCELERATION_DUE_TO_EARTH_GRAVITY9.80665
 longitude latitude alevhalf time kg m-2 s-1 - ok HadREM-CP4A_mappings.cfg
mcd CFmon APmonLev 
m01s05i251DOWNDRAUGHT MASS FLUX (PA/S)
Downdraught mass flux in Pascals/sed

Available on all timesteps.
[lbproc=128] / 
ACCELERATION_DUE_TO_EARTH_GRAVITY9.80665
 longitude latitude alevhalf time kg m-2 s-1 - ok HadREM-CP4A_mappings.cfg
mcu CFmon APmonLev 
m01s05i250UPDRAUGHT MASS FLUX (Pa/s)
Updraught mass flux in Pascals/sed

Available on all timesteps.
[lbproc=128] / 
ACCELERATION_DUE_TO_EARTH_GRAVITY9.80665
 longitude latitude alevhalf time kg m-2 s-1 - ok HadREM-CP4A_mappings.cfg
meanage AERmonZ AEmonZ 
(
m01s51i150AGE OF AIR (SEC) ON PRESS LEVELS
Age of Air in seconds on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192])
/ (
SECONDS_IN_DAY86400.
 * 
DAYS_IN_YEAR360.
)
commentIn the UM this tracer is not reset at/near the Tropopause, but at a height of around 800m for the L85 configuration.
 latitude plev39 time yr chemistry ok HadREM-CP4A_mappings.cfg
minpblz AERday AEday 
m01s03i304TURBULENT MIXING HT AFTER B.LAYER m
Maximum height of turbulent mixing. This will be the same as STASH item
(1, 3, 025) for stable layers (see STASH item (1, 3, 305)), well-mixed
boundary  layers (see STASH item (1, 3, 307)) and for cumulus layers (see
STASH item (1, 3, 310)), with both marking the lifting condensation level
in the latter case. For decoupled boundary layers (see STASH items (1, 3,
306),(1, 3, 308) and (1, 3, 309)), this will mark the top of the
decoupled layer.

Available on all timesteps.
[lbproc=4096]
 longitude latitude time m boundary-layer ok HadREM-CP4A_mappings.cfg
mlcape GC1hrPt 
m01s20i110MLCAPE mixed-layer CAPE
Undilute CAPE (convective available potential energy) from a parcel ascent
from a mixed layer of 500m depth above
the surface. The parcel ascent follows a pseudoadiabat once saturated.
The heat due to sublimation is ignored. (J/kg)
[lbproc=0]
 longitude latitude time1 J kg-1 embargoed HadREM-CP4A_mappings.cfg
mlcin GC1hrPt 
m01s20i111MLCIN mixed-layer CIN
Undilute CIN (convective inhibition) from a parcel ascent from a
mixed layer of 500m depth above
the surface. The parcel ascent follows a pseudoadiabat once saturated.
The heat due to sublimation is ignored. (J/kg)
[lbproc=0]
 longitude latitude time1 J kg-1 embargoed HadREM-CP4A_mappings.cfg
mlotst Eday Omon OPday OPmon 
mlotst
 longitude latitude time m ocean ok HadREM-CP4A_mappings.cfg
mlotstmax Omon OPmon 
mlotstmax
 longitude latitude time m ocean ok HadREM-CP4A_mappings.cfg
mlotstmin Omon OPmon 
mlotstmin
 longitude latitude time m ocean ok HadREM-CP4A_mappings.cfg
mlotstsq Omon OPmon 
mlotstsq
 longitude latitude time m2 ocean ok HadREM-CP4A_mappings.cfg
mmrBC2 CresAERmon 
m01s34i105AITKEN MODE (SOLUBLE) BC MMR
Aitken Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
commentReported as kg C/kg air.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrBC3 CresAERmon 
m01s34i109ACCUMULATION MODE (SOL) BC MMR
Accumulation Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
commentReported as kg C/kg air.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrBC4 CresAERmon 
m01s34i115COARSE MODE (SOLUBLE) BC MMR
Coarse Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
commentReported as kg C/kg air.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrBC5 CresAERmon 
m01s34i120AITKEN MODE (INSOLUBLE) BC MMR
Aitken Mode (InSoluble) Black Carbon Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
commentReported as kg C/kg air.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrDUd1 CresAERmon 
m01s00i431[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrDUd2 CresAERmon 
m01s00i432[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrDUd3 CresAERmon 
m01s00i433[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrDUd4 CresAERmon 
m01s00i434[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrDUd5 CresAERmon 
m01s00i435[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrDUd6 CresAERmon 
m01s00i436[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrOA1 CresAERmon 
m01s34i126NUCLEATION MODE (SOLUBLE) OM MMR
Nucleation Mode (Soluble) Organic Matter Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrOA2 CresAERmon 
m01s34i106AITKEN MODE (SOLUBLE) OM MMR
Aitken Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrOA3 CresAERmon 
m01s34i110ACCUMULATION MODE (SOL) OM MMR
Accumulation Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrOA4 CresAERmon 
m01s34i116COARSE MODE (SOLUBLE) OM MMR
Coarse Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrOA5 CresAERmon 
m01s34i121AITKEN MODE (INSOLUBLE) OM MMR
Aitken Mode (InSoluble) Organic Matter Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrSS3 CresAERmon 
m01s34i111ACCUMULATION MODE (SOL) SEA SALT MMR
Accumulation Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrSS4 CresAERmon 
m01s34i117COARSE MODE (SOLUBLE) SEA SALT MMR
Coarse Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrSU1 CresAERmon 
m01s34i102NUCLEATION MODE (SOLUBLE) H2SO4 MMR
Nucleation Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrSU2 CresAERmon 
m01s34i104AITKEN MODE (SOLUBLE) H2SO4 MMR
Aitken Mode (Soluble) Aerosol H2SO4 Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrSU3 CresAERmon 
m01s34i108ACCUMULATION MODE (SOL) H2SO4 MMR
Accumulation Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrSU4 CresAERmon 
m01s34i114COARSE MODE (SOLUBLE) H2SO4 MMR
Coarse Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
mmrbc AERmon AEmonLev 
m01s34i105AITKEN MODE (SOLUBLE) BC MMR
Aitken Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128] + 
m01s34i109ACCUMULATION MODE (SOL) BC MMR
Accumulation Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
+ 
m01s34i115COARSE MODE (SOLUBLE) BC MMR
Coarse Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128] + 
m01s34i120AITKEN MODE (INSOLUBLE) BC MMR
Aitken Mode (InSoluble) Black Carbon Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
commentReported as kg C/kg air.
 longitude latitude alevel time kg kg-1 aerosol ok HadREM-CP4A_mappings.cfg
mmrdust AERmon AEmonLev 
m01s00i431[lbproc=128] + m01s00i432[lbproc=128]
+ m01s00i433[lbproc=128] + m01s00i434[lbproc=128] + m01s00i435[lbproc=128]
+ m01s00i436[lbproc=128]
 longitude latitude alevel time kg kg-1 dust ok HadREM-CP4A_mappings.cfg
mmroa AERmon AEmonLev 
m01s34i106AITKEN MODE (SOLUBLE) OM MMR
Aitken Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128] + 
m01s34i110ACCUMULATION MODE (SOL) OM MMR
Accumulation Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
+ 
m01s34i116COARSE MODE (SOLUBLE) OM MMR
Coarse Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128] + 
m01s34i121AITKEN MODE (INSOLUBLE) OM MMR
Aitken Mode (InSoluble) Organic Matter Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128] + 
m01s34i126NUCLEATION MODE (SOLUBLE) OM MMR
Nucleation Mode (Soluble) Organic Matter Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
commentReported as kg ORGM/kg air using a ratio of 1.4 C/ORGM.
 longitude latitude alevel time kg kg-1 aerosol ok HadREM-CP4A_mappings.cfg
mmrso4 AERmon AEmonLev 
(
MOLECULAR_MASS_OF_SO496.
 / 
MOLECULAR_MASS_OF_H2SO498.
)
* (
m01s34i102NUCLEATION MODE (SOLUBLE) H2SO4 MMR
Nucleation Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
+ 
m01s34i104AITKEN MODE (SOLUBLE) H2SO4 MMR
Aitken Mode (Soluble) Aerosol H2SO4 Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
+ 
m01s34i108ACCUMULATION MODE (SOL) H2SO4 MMR
Accumulation Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
+ 
m01s34i114COARSE MODE (SOLUBLE) H2SO4 MMR
Coarse Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128])
 longitude latitude alevel time kg kg-1 aerosol ok HadREM-CP4A_mappings.cfg
mmrss AERmon AEmonLev 
m01s34i111ACCUMULATION MODE (SOL) SEA SALT MMR
Accumulation Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128] + 
m01s34i117COARSE MODE (SOLUBLE) SEA SALT MMR
Coarse Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time kg kg-1 aerosol ok HadREM-CP4A_mappings.cfg
mrfso Lmon LPmon 
level_sum(
m01s08i223SOIL MOISTURE CONTENT IN A LAYER
Total (frozen+unfrozen) soil moisture content in a soil layer (kg/m2).

Available on land points only.


Note: Includes the "wilting point" soil moisture.
[lbproc=128]
* 
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128]
/ (
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128] + 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128]))
 longitude latitude time kg m-2 snow-permafrost ok HadREM-CP4A_mappings.cfg
mrfsofr Eday LPday 
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128]
/ (
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128] + 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128])
 longitude latitude sdepth time 1.0 land embargoed HadREM-CP4A_mappings.cfg
mrlqso Eday LPday 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128]
/ (
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128] + 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128])
 longitude latitude sdepth time 1.0 land embargoed HadREM-CP4A_mappings.cfg
mrlso Emon LPmon 
level_sum(
m01s08i223SOIL MOISTURE CONTENT IN A LAYER
Total (frozen+unfrozen) soil moisture content in a soil layer (kg/m2).

Available on land points only.


Note: Includes the "wilting point" soil moisture.
[lbproc=128]
* 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128]
/ (
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128] + 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128]))
 longitude latitude time kg m-2 land ok HadREM-CP4A_mappings.cfg
mrro 3hr Lmon day LP3hr LPday LPmon 
m01s08i234SURFACE RUNOFF RATE          KG/M2/S
Rate of surface runoff (kg/m2/s).
"Rate-equivalent" of item 1:8:204
Available on land points only.
[lbproc=128] + 
m01s08i235SUB-SURFACE RUNOFF RATE      KG/M2/S
Rate of sub-surface runoff (kg/m2/s).
"Rate-equivalent" of item 1:8:205
Available on land points only.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
mrrob Eday GCLmon LPday 
m01s08i235SUB-SURFACE RUNOFF RATE      KG/M2/S
Rate of sub-surface runoff (kg/m2/s).
"Rate-equivalent" of item 1:8:205
Available on land points only.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
mrros GC3hr Lmon Eday Lmon LPday LPmon 
m01s08i234SURFACE RUNOFF RATE          KG/M2/S
Rate of surface runoff (kg/m2/s).
"Rate-equivalent" of item 1:8:204
Available on land points only.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
mrsfl Eday Emon LPday LPmon mon day 6hr 
m01s08i223SOIL MOISTURE CONTENT IN A LAYER
Total (frozen+unfrozen) soil moisture content in a soil layer (kg/m2).

Available on land points only.


Note: Includes the "wilting point" soil moisture.
[lbproc=128] * 
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128]
/ (
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128] + 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128])
 longitude latitude sdepth time kg m-2 land ok HadREM-CP4A_mappings.cfg
mrsll Eday Emon LPday LPmon 
m01s08i223SOIL MOISTURE CONTENT IN A LAYER
Total (frozen+unfrozen) soil moisture content in a soil layer (kg/m2).

Available on land points only.


Note: Includes the "wilting point" soil moisture.
[lbproc=128] * 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128]
/ (
m01s08i230FROZEN SOIL MOISTURE FRACTION
layer as a fraction of saturation.

Available on land points only.
[lbproc=128] + 
m01s08i229UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
UNFROZEN SOIL MOISTURE FRACTION
The amount of frozen soil water in each soil layer as a fraction of saturation

Available on land points only.
[lbproc=128])
 longitude latitude sdepth time kg m-2 land ok HadREM-CP4A_mappings.cfg
mrso Lmon day LPmon LPday 
level_sum(
m01s08i223SOIL MOISTURE CONTENT IN A LAYER
Total (frozen+unfrozen) soil moisture content in a soil layer (kg/m2).

Available on land points only.


Note: Includes the "wilting point" soil moisture.
[lbproc=128])
 longitude latitude time kg m-2 land ok HadREM-CP4A_mappings.cfg
mrsofc fx LPfx 
mask_zeros(m01s00i041 * 
FRESHWATER_DENSITY1000.
)
commentSoil moisture variables are set missing in grid boxes covered by land ice. Soil hydrology is not run on land ice grid boxes.
 longitude latitude kg m-2 land ok HadREM-CP4A_mappings.cfg
mrsol Eday Emon LPday LPmon mon day 
m01s08i223SOIL MOISTURE CONTENT IN A LAYER
Total (frozen+unfrozen) soil moisture content in a soil layer (kg/m2).

Available on land points only.


Note: Includes the "wilting point" soil moisture.
[lbproc=128]
 longitude latitude sdepth time kg m-2 land ok HadREM-CP4A_mappings.cfg
mrsos day Lmon LPmon LPday mon 
m01s08i223SOIL MOISTURE CONTENT IN A LAYER
Total (frozen+unfrozen) soil moisture content in a soil layer (kg/m2).

Available on land points only.


Note: Includes the "wilting point" soil moisture.
[blev=0.05, lbproc=128]
 longitude latitude sdepth1 time kg m-2 land ok HadREM-CP4A_mappings.cfg
msftbarot Omon OPmon 
ocean_quasi_barotropic_streamfunc(umo_vint, areacello,
cube_mask=mask_2D_T)
commentThis diagnostic has been non-conservatively regridded from velocity points to tracer points.
 longitude latitude time kg s-1 ocean ok HadREM-CP4A_mappings.cfg
msftyz Omon OPmonLev 
SEAWATER_DENSITY1026.
 * combine_cubes_to_basin_coord(zomsfglo,
zomsfatl, zomsfipc, mask_global=global_ocean_2D_V,
mask_atl=atlantic_arctic_ocean_2D_V, mask_indpac=indian_pacific_ocean_2D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin.
 latitude basin olevel time sverdrup kg m-3 ocean ok HadREM-CP4A_mappings.cfg
msftyzmpa Omon OPmonLev 
SEAWATER_DENSITY1026.
 * combine_cubes_to_basin_coord(zomsfeivglo,
zomsfeivatl, zomsfeivipc, mask_global=global_ocean_2D_V,
mask_atl=atlantic_arctic_ocean_2D_V, mask_indpac=indian_pacific_ocean_2D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin.
 latitude basin olevel time sverdrup kg m-3 ocean ok HadREM-CP4A_mappings.cfg
n2o Amon APmon 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_N2O44.
)
* 
m01s51i049N2O MASS MIXING RATIO ON PRESS LEVS
Nitrous Oxide Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
n2oglobal Amon APmon 
mmr2molefrac(
m01s50i063AIR MASS DIAGNOSTIC (WHOLE ATMOS)
Total Air Mass (Whole Atmosphere) : kg
Valid only on chemical timesteps
[lbproc=128], 
m01s34i049N2O MASS MIXING RATIO AFTER TIMESTEP
Nitrous Oxide Mass Mixing Ratio in kg/kg(Air)
[lbproc=128],

MOLECULAR_MASS_OF_N2O44.
)
 time 1 chemistry ok HadREM-CP4A_mappings.cfg
no AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_NO30.
)
* 
m01s34i002NO MASS MIXING RATIO AFTER TIMESTEP
Nitric Oxide Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
no2 AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_NO30.
2)
* 
m01s34i996NO2 MASS MIXING RATIO AFTER TIMESTEP
Mass mixing ratio of NO2 (kg/kg)
This variable is a prognostic but is not advected.
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
noy AERmonZ AEmonZ 
MOLECULAR_MASS_OF_AIR28.97

* ((
m01s51i002NO MASS MIXING RATIO ON PRESS LEVS
Nitric Oxide Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_NO30.
)
+ (
m01s51i003NO3 MASS MIXING RATIO ON PRESS LEVS
Mass Mixing Ratio of nitrate radical as kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_NO30.
3)
+ (2 * 
m01s51i005N2O5 MASS MIX RATIO ON PRESS LEVS
Dinitrogen pentoxide Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_N2O44.
5)
+ (
m01s51i006HO2NO2 MASS MIX RATIO ON PRESS LEVS
Peroxynitric Acid Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_HO233.
NO2)
+ (
m01s51i007HONO2 MASS MIX RATIO ON PRESS LEVS
Nitric Acid Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_HNO363.
)
+ (
m01s51i013HONO MASS MIX RATIO ON PRESS LEVS
Nitrous acid Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_HONO47.
)
+ (
m01s51i025MeONO2 MASS MIX RATIO ON PRESS LEVS
Methyl Nitrate (CH3NO3) Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_MEONO277.
)
+ (
m01s51i048BrONO2 MASS MIX RATIO ON PRESS LEVS
Bromine Nitrate Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_BRO96.
NO2)
+ (
m01s51i054ClONO2 MASS MIX RATIO ON PRESS LEVS
Chlorine Nitrate Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_CLONO297.5
)
+ (
m01s51i058N MASS MIXING RATIO ON PRESS LEVS
N Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_NITROGEN14.
)
+ (
m01s51i996NO2 MASS MIXING RATIO ON PRESSURE LEVELS
Mass mixing ratio of NO2 (kg/kg)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192] / 
MOLECULAR_MASS_OF_NO30.
2))
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
 latitude plev39 time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
o3 Amon APmon 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_O348.
)
* 
m01s51i001O3 MASS MIXING RATIO ON PRESS LEVS
Ozone Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
o3loss AERmon AEmonLev 
(
m01s50i011Ox LOSS: O(1D)+H2O
Chemical reaction Flux giving Ox destruction: O(1D)+H2O
(moles(Ox)/s)
This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)
Valid only on chemical timesteps

The sum of this chemical flux over all model gridboxes gives the total
number of moles of Ox being destroyed by this reaction per second in the
whole model.
[lbproc=128] + 
m01s50i013Ox LOSS: HO2+O3
Chemical reaction Flux giving Ox destruction: HO2+O3
(moles(Ox)/s)
This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)
Valid only on chemical timesteps

The sum of this chemical flux over all model gridboxes gives the total
number of moles of Ox being destroyed by this reaction per second in the
whole model.
[lbproc=128]
+ 
m01s50i014Ox LOSS: OH+O3
Chemical reaction Flux giving Ox destruction: OH+O3
(moles(Ox)/s)
This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)
Valid only on chemical timesteps

The sum of this chemical flux over all model gridboxes gives the total
number of moles of Ox being destroyed by this reaction per second in the
whole model.
[lbproc=128] + 
m01s50i015Ox LOSS: O3+ALKENE
Chemical reaction Flux giving Ox destruction: O3+ALKENE
(moles(Ox)/s)
This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)
Valid only on chemical timesteps

The sum of this chemical flux over all model gridboxes gives the total
number of moles of Ox being destroyed by this reaction per second in the
whole model.
[lbproc=128])
/ 
m01s50i255UKCA Theta Grid Cell Volume (m^3)
Volume of model grid cell represented at theta points, in cubic metres,
as used in the calculation of UKCA diagnostics.
This field should be used for conversion of UKCA diagnostics with units
moles/gridbox/s to moles/m^3/s, for comparison with obs or other models.

Note:This field is only valid for model quantities held on theta points
 and should not be used for any calculations involving quantities
 represented on model rho points e.g. density, or those expected to be
 conserved globally.
[lbproc=128]
 longitude latitude alevel time mol m-3 s-1 chemistry ok HadREM-CP4A_mappings.cfg
o3prod AERmon AEmonLev 
(
m01s50i001Ox PROD: HO2+NO
Chemical reaction flux giving Ox production: HO2+NO
(moles(Ox)/s)
This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)
Valid only on chemical timesteps

The sum of this chemical flux over all model gridboxes gives the total
number of moles of Ox being produced by this reaction per second in the
whole model.
[lbproc=128] + 
m01s50i003Ox PROD: NO+RO2
Chemical reaction flux giving Ox production: NO+RO2
(moles(Ox)/s)
This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)
Valid only on chemical timesteps

The sum of this chemical flux over all model gridboxes gives the total
number of moles of Ox being produced by this reaction per second in the
whole model.
[lbproc=128]
+ 
m01s50i103STRAT O3 PROD: HO2 + NO
Flux for Stratospheric O3 Production reaction : HO2 + NO
(moles(Ox)/s)
Valid only on chemical timesteps

This is the total flux in the gridbox obtained by multiplying the
reaction rate of the above reaction (moles/cm^3/s) by the grid box's
volume (in cm^3)

The sum of this chemical flux over all model gridboxes gives the total
number of moles of Ox being produced by this reaction per second in the
whole model.
[lbproc=128])
/ 
m01s50i255UKCA Theta Grid Cell Volume (m^3)
Volume of model grid cell represented at theta points, in cubic metres,
as used in the calculation of UKCA diagnostics.
This field should be used for conversion of UKCA diagnostics with units
moles/gridbox/s to moles/m^3/s, for comparison with obs or other models.

Note:This field is only valid for model quantities held on theta points
 and should not be used for any calculations involving quantities
 represented on model rho points e.g. density, or those expected to be
 conserved globally.
[lbproc=128]
 longitude latitude alevel time mol m-3 s-1 chemistry ok HadREM-CP4A_mappings.cfg
obvfsq Omon OPmonLev 
mask_copy(obvfsq, mask_3D_T)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time s-2 ocean ok HadREM-CP4A_mappings.cfg
od440aer AERmon CresAERday Cres1HrMn AEmon 
m01s02i285MINERAL DUST OPTICAL DEPTH IN RADN.
Mineral dust aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=2, lbproc=128]
+ 
m01s02i300AITKEN MODE (SOLUBLE) OPTICAL DEPTH
Soluble Aitken mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=2, lbproc=128] + 
m01s02i301ACCUM MODE (SOLUBLE) OPTICAL DEPTH
Soluble accumulation mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=2, lbproc=128]
+ 
m01s02i302COARSE MODE (SOLUBLE) OPTICAL DEPTH
Soluble coarse mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=2, lbproc=128] + 
m01s02i303AITKEN MODE (INSOL) OPTICAL DEPTH
Insoluble Aitken mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=2, lbproc=128]
commentAssuming CLASSIC dust.
 longitude latitude time 1 aerosol ok HadREM-CP4A_mappings.cfg
od443dust Emon APmon 
m01s02i285MINERAL DUST OPTICAL DEPTH IN RADN.
Mineral dust aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=2, lbproc=128]
comment440nm from model.
 longitude latitude time 1 dust ok HadREM-CP4A_mappings.cfg
od550aer AERday AERmon CresAERday Cres1HrMn AEday AEmon mon 
m01s02i285MINERAL DUST OPTICAL DEPTH IN RADN.
Mineral dust aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
+ 
m01s02i300AITKEN MODE (SOLUBLE) OPTICAL DEPTH
Soluble Aitken mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128] + 
m01s02i301ACCUM MODE (SOLUBLE) OPTICAL DEPTH
Soluble accumulation mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
+ 
m01s02i302COARSE MODE (SOLUBLE) OPTICAL DEPTH
Soluble coarse mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128] + 
m01s02i303AITKEN MODE (INSOL) OPTICAL DEPTH
Insoluble Aitken mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
 longitude latitude lambda550nm time 1 aerosol ok HadREM-CP4A_mappings.cfg
od550aerso Emon APmon 
m01s02i251AITKEN (SOLUBLE) STRATO  AOD
Soluble Aitken mode stratospheric aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
+ 
m01s02i252ACCUM (SOLUBLE) STRATO  AOD
Soluble accumulation mode stratospheric aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128] + 
m01s02i253COARSE (SOLUBLE) STRATO  AOD
Soluble coarse mode stratospheric aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
+ 
m01s02i254AITKEN (INSOL) STRATO  AOD
Insoluble Aitken mode stratospheric aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
commentDust not included.
 longitude latitude lambda550nm time 1 aerosol ok HadREM-CP4A_mappings.cfg
od550dust AERmon CresAERday AEmon 
m01s02i285MINERAL DUST OPTICAL DEPTH IN RADN.
Mineral dust aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
 longitude latitude lambda550nm time 1 dust ok HadREM-CP4A_mappings.cfg
od550lt1aer AERmon AEmon 
m01s02i300AITKEN MODE (SOLUBLE) OPTICAL DEPTH
Soluble Aitken mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
+ 
m01s02i301ACCUM MODE (SOLUBLE) OPTICAL DEPTH
Soluble accumulation mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128] + 
m01s02i303AITKEN MODE (INSOL) OPTICAL DEPTH
Insoluble Aitken mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=3, lbproc=128]
commentAitken and accumulation modes only, no dust.
 longitude latitude lambda550nm time 1 aerosol ok HadREM-CP4A_mappings.cfg
od865dust Emon APmon 
m01s02i285MINERAL DUST OPTICAL DEPTH IN RADN.
Mineral dust aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=5, lbproc=128]
comment870nm from model.
 longitude latitude time 1 dust ok HadREM-CP4A_mappings.cfg
od870aer AERmon AEmon 
m01s02i285MINERAL DUST OPTICAL DEPTH IN RADN.
Mineral dust aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=5, lbproc=128]
+ 
m01s02i300AITKEN MODE (SOLUBLE) OPTICAL DEPTH
Soluble Aitken mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=5, lbproc=128] + 
m01s02i301ACCUM MODE (SOLUBLE) OPTICAL DEPTH
Soluble accumulation mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=5, lbproc=128]
+ 
m01s02i302COARSE MODE (SOLUBLE) OPTICAL DEPTH
Soluble coarse mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=5, lbproc=128] + 
m01s02i303AITKEN MODE (INSOL) OPTICAL DEPTH
Insoluble Aitken mode aerosol optical depth.
This is available at the AOD wavelengths defined in the spectral file
(typically 0.38, 0.44, 0.55, 0.67, 0.87, and 1.02 microns).
This diagnostic will remain at zero if corresponding UKCA-MODE aerosols
are not used in the model run (see atmosphere section 34 UKCA).

To output AOD diagnostics, they should be specified on a single level
domain, with pseudo-levels set to the radiation bands for calculating
aerosol optical depth, with a list of numbers to specify which
of the available wavelengths are to be output.
[lbplev=5, lbproc=128]
commentAssuming CLASSIC dust.
 longitude latitude time 1 aerosol ok HadREM-CP4A_mappings.cfg
oh AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_OH17.
)
* 
m01s34i081OH MASS MIXING RATIO AFTER TIMESTEP
Hydroxyl radical Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
opottempdiff Emon OPmonLev 
opottempdiff
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time W m-2 ocean ok HadREM-CP4A_mappings.cfg
opottempmint Emon OPmon 
opottempmint
commentFull column sum of density * cell thickness * potential temperature. If the model is Boussinesq, then use Boussinesq reference density for the density factor.
 longitude latitude time degC kg m-2 ocean ok HadREM-CP4A_mappings.cfg
opottemppmdiff Emon OPmonLev 
opottemppmdiff
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time W m-2 ocean ok HadREM-CP4A_mappings.cfg
opottemprmadvect Emon OPmonLev 
opottempadvect
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time W m-2 ocean ok HadREM-CP4A_mappings.cfg
opottemptend Emon OPmonLev 
opottemptend
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time W m-2 ocean ok HadREM-CP4A_mappings.cfg
orog fx LPfx mon day 6hr 3hr 1hr 
m01s00i033
 longitude latitude m atmos-physics ok HadREM-CP4A_mappings.cfg
osaltdiff Emon OPmonLev 
osaltdiff
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg m-2 s-1 ocean ok HadREM-CP4A_mappings.cfg
osaltpmdiff Emon OPmonLev 
osaltpmdiff
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg m-2 s-1 ocean ok HadREM-CP4A_mappings.cfg
osaltrmadvect Emon OPmonLev 
osaltadvect
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg m-2 s-1 ocean ok HadREM-CP4A_mappings.cfg
osalttend Emon OPmonLev 
osalttend
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg m-2 s-1 ocean ok HadREM-CP4A_mappings.cfg
pan AERmon AEmonLev 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_PAN121.
)
* 
m01s34i017PAN MASS MIXING RATIO AFTER TSTEP
Peroxy Acetyl Nitrate Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
 longitude latitude alevel time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
parasolRefl Eday Emon APday APmon 
fix_parasol_sza_axis(
m01s02i348COSP: PARASOL TOA REFLECTANCE
Simulated reflectance from PARASOL as seen at the top of the atmosphere
for 5 solar zenith angles (degree): 0, 20, 40, 60, 80. Valid only over
ocean and for one viewing direction (viewing zenith angle of 30 degrees
and relative azimuth angle 320 degrees).
[lbproc=128])
 longitude latitude sza5 time 1 cftables ok HadREM-CP4A_mappings.cfg
pbo Omon OPmon 
pbo
 longitude latitude time dbar ocean ok HadREM-CP4A_mappings.cfg
pctisccp CFday CFmon APday APmon 
m01s02i333COSP: ISCCP WEIGHTED CLOUD TOP PRES.
Mean cloud top pressure (Pa), multiplied by total cloud fraction (2.334).
Time-averages of this diagnostic will have to be unweighted(divided) by the
time-average of 2.334 to produce mean in-cloud values. Linear average of cloud
top pressure accross sub-columns. Reported on sunlit points only. No need to
used Heaviside weights for time-means.
[lbproc=128] / 
m01s02i334COSP: ISCCP TOTAL CLOUD AREA
Total cloud area from ISCCP simulator. Reported on sunlit points only.
It needs mask 2.330.
[lbproc=128]
 longitude latitude time Pa cftables ok HadREM-CP4A_mappings.cfg
pfull AERmon CFday AEmonLev APdayLev 
m01s00i408[lbproc=128]
 longitude latitude alevel time Pa atmos-physics cftables ok HadREM-CP4A_mappings.cfg
phalf AERmon CFday APdayLev AEmonLev 
m01s00i407[lbproc=128]
commentThis field is on model half-levels. For pressure on model radiation levels, replace the first level of this field with surface pressure (ps).
 longitude latitude alevhalf time Pa aerosol cftables ok HadREM-CP4A_mappings.cfg
photo1d AERmon AEmonLev 
m01s50i228JO1D (s-1)
Photolysis rate of O3 to O1D
s-1
Valid only on chemical timesteps

Available if chemistry and photolysis are turned ON in UKCA
[lbproc=128]
 longitude latitude alevel time s-1 chemistry ok HadREM-CP4A_mappings.cfg
pmlev 6hrLev 
m01s00i408[lbproc=128]
 longitude latitude alevel time Pa atmos-physics embargoed HadREM-CP4A_mappings.cfg
pr 3hr 6hrPlev E1hr CresAERday AP1hr AP3hr AP6hr APday APmon mon 1hr 
m01s05i216TOTAL PRECIPITATION RATE     KG/M2/S
Total precipitation rate at the surface in kg/m2/s.
This is the sum of the large scale and convective rainfall and snowfall
at the surface.e.
[lbproc=128]
 longitude latitude time kg m-2 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
prc 3hr Amon E1hr day AP1hr AP3hr APday APmon mon 1hr 
m01s05i205CONVECTIVE RAINFALL RATE     KG/M2/S
Convective rainfall rate at the surface in kg/m2/s.
If several model sweeps of convection per model timestep, this gives the
mean value.
[lbproc=128] + 
m01s05i206CONVECTIVE SNOWFALL RATE     KG/M2/S
Convective snowfall rate at the surface in kg/m2/s.
If several model sweeps of convection per model timestep, this gives the
mean value.
[lbproc=128]
 longitude latitude time kg m-2 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
prcprof CF3hr AP3hrPtLev 
m01s05i227NOMINAL 3D CONVECTIVE RAINFALL RATE
Name: NOMINAL 3D CONVECTIVE RAINFALL RATE
Rate at which convective rainfall is falling through the model layer
      in kg/m2/sec
[lbproc=0]
 longitude latitude alevhalf time1 kg m-2 s-1 cftables ok HadREM-CP4A_mappings.cfg
prlsns CF3hr AP3hrPtLev 
m01s04i223SNOWFALL RATE OUT OF MODEL LEVELS
Snowfall rate out of model levels.
This provides a three dimensional field of the large scale snowfall rate
(kg/m2/s) falling out of each model level. The snowfall rate out of the
lowest layer is equal to the surface large scale snowfall rate provided
by diagnostic 1 4 204
For model runs with prognostic graupel, this snowfall diagnostic will
include contributions from graupel. Do not add diagnostic (1 4 226) to
this value in any analysis or otherwise your answers will be wrong as
the graupel will be counted twice. For snow amount without graupel, please
use diagnostic (1 4 323)
[lbproc=0]
 longitude latitude alevhalf time1 kg m-2 s-1 cftables ok HadREM-CP4A_mappings.cfg
prlsprof CF3hr AP3hrPtLev 
m01s04i222RAINFALL RATE OUT OF MODEL LEVELS
Rainfall rate out of model levels.
This provides a three dimensional field of the large scale rainfall rate
(kg/m2/s) falling out of each model level. The rainfall rate out of the
lowest layer is equal to the surface large scale rainfall rate provided
by diagnostic 1 4 203
[lbproc=0]
 longitude latitude alevhalf time1 kg m-2 s-1 cftables ok HadREM-CP4A_mappings.cfg
prra E3hr AP3hr 
m01s05i214TOTAL RAINFALL RATE: LS+CONV KG/M2/S
Total rainfall rate at the surface in kg/m2/s.
This is the sum of the large scale and convective rainfall at the surface.
[lbproc=128]
 longitude latitude time kg m-2 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
prrc E3hr Eday AP3hr APday 
m01s05i205CONVECTIVE RAINFALL RATE     KG/M2/S
Convective rainfall rate at the surface in kg/m2/s.
If several model sweeps of convection per model timestep, this gives the
mean value.
[lbproc=128]
 longitude latitude time kg m-2 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
prsn 3hr AP3hr APday APmon mon 1hr 
m01s05i215TOTAL SNOWFALL RATE: LS+CONV KG/M2/S
Total snowfall rate at the surface in kg/m2/s.
This is the sum of the large scale and convective snowfall at the surface.
[lbproc=128]
commentIncludes graupel
 longitude latitude time kg m-2 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
prsnc E3hr GCAmon AP3hr E3hr 
m01s05i206CONVECTIVE SNOWFALL RATE     KG/M2/S
Convective snowfall rate at the surface in kg/m2/s.
If several model sweeps of convection per model timestep, this gives the
mean value.
[lbproc=128]
 longitude latitude time kg m-2 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
prw Amon Eday APday APmon 
m01s30i461TOTAL COLUMN Q (WATER VAPOUR PATH)
Column integral of atmospheric mass * specific humidity.
Units are kg m^-2
[lbproc=128]
 longitude latitude time kg m-2 atmos-physics ok HadREM-CP4A_mappings.cfg
ps AERhr AERmon Amon CFday CFmon Emon CresAERday Cres1HrMn AP1hr APday APmon 
m01s00i409[lbproc=128]
 longitude latitude time Pa atmos-physics cftables ok HadREM-CP4A_mappings.cfg
psl 6hrPlev Amon day APmon AP6hr APday 
m01s16i222[lbproc=128]
 longitude latitude time Pa atmos-physics ok HadREM-CP4A_mappings.cfg
ptp AERmon AEmon 
m01s30i451[lbproc=128]
 longitude latitude time Pa atmos-physics ok HadREM-CP4A_mappings.cfg
reffcclwtop Eday APday 
mask_using_cube(
m01s01i2452-D RE DISTRIBUTION * 2-D RE WEIGHT
A 2-dimensional diagnostic of liquid cloud droplet effective radius (in
microns) as observed from above cloud top, weighted by it's own specific
weight (1:01:246), by which it must be divided to be meaningful.
[lbproc=128] / 
m01s01i246WEIGHT FOR 2-D RE DISTRIBUTION
Weight for diagnostic.
[lbproc=128],

m01s02i395CONVECTIVE CORE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2318) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128] + 
m01s02i396CONVECTIVE CORE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2319) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128])
commentThis effective radius is estimated in PC2 scheme hence contributed from both stratiform clouds and convective clouds.
 longitude latitude time um cloud ok HadREM-CP4A_mappings.cfg
reffclic Emon APmonLev 
0.5 * 
m01s02i398L-S ICE WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale ice cloud, weighted by
large-scale ice cloud fraction (2.313). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=128] / 
m01s02i313GRIDBOX ICE LSC CF IN RADIATION
Grid box average of large-scale ice cloud fraction
[lbproc=128]
 longitude latitude alevel time m cloud ok HadREM-CP4A_mappings.cfg
reffclis Emon APmonLev 
0.5 * 
m01s02i398L-S ICE WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale ice cloud, weighted by
large-scale ice cloud fraction (2.313). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=128] / 
m01s02i313GRIDBOX ICE LSC CF IN RADIATION
Grid box average of large-scale ice cloud fraction
[lbproc=128]
 longitude latitude alevel time m cloud ok HadREM-CP4A_mappings.cfg
reffclwc Emon APmonLev 
m01s02i397L-S LIQ WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale liquid cloud, weighted by
large-scale liquid cloud fraction (2.312). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=128] / 
m01s02i312GRIDBOX LIQ LSC CF IN RADIATION
Grid box average of large-scale liquid cloud fraction
[lbproc=128]
 longitude latitude alevel time m cloud ok HadREM-CP4A_mappings.cfg
reffclws Emon APmonLev 
m01s02i397L-S LIQ WEIGHTED EFFECTIVE DIMENSION
In-cloud effective dimension of large-scale liquid cloud, weighted by
large-scale liquid cloud fraction (2.312). Time averages must be divided
by the weight to recover the in-cloud time average. Units: metres.
[lbproc=128] / 
m01s02i312GRIDBOX LIQ LSC CF IN RADIATION
Grid box average of large-scale liquid cloud fraction
[lbproc=128]
 longitude latitude alevel time m cloud ok HadREM-CP4A_mappings.cfg
reffclwtop AERmon AEmon 
m01s01i2452-D RE DISTRIBUTION * 2-D RE WEIGHT
A 2-dimensional diagnostic of liquid cloud droplet effective radius (in
microns) as observed from above cloud top, weighted by it's own specific
weight (1:01:246), by which it must be divided to be meaningful.
[lbproc=128] / 
m01s01i246WEIGHT FOR 2-D RE DISTRIBUTION
Weight for diagnostic.
[lbproc=128]
 longitude latitude time um cloud ok HadREM-CP4A_mappings.cfg
reffsclwtop Eday APday 
mask_using_cube(
m01s01i2452-D RE DISTRIBUTION * 2-D RE WEIGHT
A 2-dimensional diagnostic of liquid cloud droplet effective radius (in
microns) as observed from above cloud top, weighted by it's own specific
weight (1:01:246), by which it must be divided to be meaningful.
[lbproc=128] / 
m01s01i246WEIGHT FOR 2-D RE DISTRIBUTION
Weight for diagnostic.
[lbproc=128],

m01s02i391LARGE SCALE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2308) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128] + 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128] - (
m01s02i395CONVECTIVE CORE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2318) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]
+ 
m01s02i396CONVECTIVE CORE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2319) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]))
commentThis effective radius is estimated in PC2 scheme hence contributed from both stratiform clouds and convective clouds.
 longitude latitude time um cloud ok HadREM-CP4A_mappings.cfg
rld CFmon APmonLev 
correct_multilevel_metadata(
m01s02i218DOWNWARD LW FLUX ON LEVELS
Downwards LW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rld4co2 CFmon APmonLev 
correct_multilevel_metadata(
m01s02i522DOWNWARD LW FLUX ON LEVS W/ GHG FORC
Downwards LW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rldcs CFmon APmonLev 
correct_multilevel_metadata(
m01s02i220CLEAR-SKY DOWNWARD LW FLUX ON LEVELS
Clear-sky downwards LW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rldcs4co2 CFmon APmonLev 
correct_multilevel_metadata(
m01s02i524CLR DOWN LW FLUX ON LEVS W/ GHG FORC
Clear-sky (ignoring clouds) downwards LW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rlds 3hr Amon day AP3hr APday APmon GC1hr 
m01s02i207DOWNWARD LW RAD FLUX: SURFACE
The total downward flux of LW radiation at the ground or ocean surface.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=128]
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rldscs 3hr Amon CFday AP3hr APday APmon mon day 6hr 
m01s02i208CLEAR-SKY (II) DOWN SURFACE LW FLUX
The total downward flux of LW radiation at the ground or ocean surface
neglecting the radiative effects of all clouds in the atmosphere.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=128]
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude time W m-2 cftables radiation ok HadREM-CP4A_mappings.cfg
rls Eday Emon APmon 
m01s02i201NET DOWN SURFACE LW RAD FLUX
The net downward (total downward minus upward) LW radiative flux at the
surface (ground or ocean surface). The diagnostic is available
only on LW radiation timesteps.
[lbproc=128] - (
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128]
- 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128])
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rlu CFmon APmonLev 
hotspot(
m01s02i217UPWARD LW FLUX ON LEVELS
Upwards LW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128], 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128],

m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rlu4co2 CFmon APmonLev 
hotspot(
m01s02i521UPWARD LW FLUX ON LEVELS W/ GHG FORC
Upwards LW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128], 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128],

m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rlucs CFmon APmonLev 
hotspot(
m01s02i219CLEAR-SKY UPWARD LW FLUX ON LEVELS
Clear-sky upwards LW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128], 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128],

m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rlucs4co2 CFmon APmonLev 
hotspot(
m01s02i523CLEAR UP LW FLUX ON LEVS W/ GHG FORC
Clear-sky (ignoring clouds) upwards LW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128], 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128],

m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rlus 3hr Amon day AP3hr APday APmon 
m01s02i207DOWNWARD LW RAD FLUX: SURFACE
The total downward flux of LW radiation at the ground or ocean surface.
The diagnostic is calculated only on LW radiation timesteps.
[lbproc=128] - 
m01s02i201NET DOWN SURFACE LW RAD FLUX
The net downward (total downward minus upward) LW radiative flux at the
surface (ground or ocean surface). The diagnostic is available
only on LW radiation timesteps.
[lbproc=128]
+ 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128] - 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128]
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rlut GC1hr Amon day APmon APday 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128]
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rlut4co2 CFmon APmon 
remove_altitude_coords(
m01s02i521UPWARD LW FLUX ON LEVELS W/ GHG FORC
Upwards LW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128])
+ 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128] - 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128]
 longitude latitude time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rlutaf AERmon AEmon 
remove_altitude_coords(
m01s02i517CLEAN-AIR UPWARD LW FLUX ON LEVELS
Clean-air upwards LW flux in Wm-2 on radiation levels
(ignoring aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128])
+ 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128] - 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128]
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rlutcs Amon CFday APday APmon mon day 6hr 
m01s02i206CLEAR-SKY (II) UPWARD LW FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere neglecting
the radiative effects of all clouds in the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128] + 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128]
- 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128]
 longitude latitude time W m-2 cftables radiation ok HadREM-CP4A_mappings.cfg
rlutcs4co2 CFmon APmon 
remove_altitude_coords(
m01s02i523CLEAR UP LW FLUX ON LEVS W/ GHG FORC
Clear-sky (ignoring clouds) upwards LW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128])
+ 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128] - 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128]
 longitude latitude time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rlutcsaf AERmon AEmon 
remove_altitude_coords(
m01s02i519CLEAR-CLEAN UPWARD LW FLUX ON LEVELS
Clear-sky, clean-air upwards LW flux in Wm-2 on radiation levels
(ignoring clouds and aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128])
+ 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128] - 
m01s02i205OUTGOING LW RAD FLUX (TOA)
The flux of LW radiation leaving the top of the atmosphere. The diagnostic
is calculated only on LW radiation timesteps.
[lbproc=128]
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rsd CFmon APmonLev 
correct_multilevel_metadata(
m01s01i218DOWNWARD SW FLUX ON LEVELS
Downwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsd4co2 CFmon APmonLev 
correct_multilevel_metadata(
m01s01i522DOWNWARD SW FLUX ON LEVS W/ GHG FORC
Downwards SW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsdcs CFmon APmonLev 
correct_multilevel_metadata(
m01s01i220CLEAR-SKY DOWNWARD SW FLUX ON LEVELS
Clear-sky downwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsdcs4co2 CFmon APmonLev 
correct_multilevel_metadata(
m01s01i524CLR DOWN SW FLUX ON LEVS W/ GHG FORC
Clear-sky (ignoring clouds) downwards SW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsdcsaf E3hrPt AE3hrPtLev 
correct_multilevel_metadata(
m01s01i520CLEAR-CLEAN DOWNWARD SW FLUX ON LEVS
Clear-sky, clean-air downwards SW flux in Wm-2 on radiation levels
(ignoring clouds and aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 longitude latitude alevhalf time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsdcsafbnd E3hrPt AE3hrPtLev 
correct_multilevel_metadata(
m01s01i528CLR DOWN SW FLUX LVS/BNDS W/GHG FORC
Clear-sky (ignoring clouds) downwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file)
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lbproc=0])
 longitude latitude alevhalf spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsdcsbnd E3hrPt AP3hrPtLev 
correct_multilevel_metadata(
m01s01i512CLEAR DOWN SW FLUX ON LEVS AND BANDS
Clear-sky (ignoring clouds) downwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lbproc=0])
 longitude latitude alevhalf spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsdo Omon OPmonLev 
rsdo
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time W m-2 ocean ok HadREM-CP4A_mappings.cfg
rsdoabsorb Emon OPmonLev 
rsdoabsorb
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time W m-2 ocean ok HadREM-CP4A_mappings.cfg
rsds 3hr Amon day AP3hr APday APmon GC1hr 
m01s01i235TOTAL DOWNWARD SURFACE SW FLUX
The total downward SW radiative flux at the surface (ground
or ocean surface). The diagnostic is available only on SW radiation
timesteps.
[lbproc=128]
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rsdscs 3hr Amon CFday APmon AP3hr APday mon day 6hr 
m01s01i210CLEAR-SKY (II) DOWN SURFACE SW FLUX
The downward clear-sky SW radiative flux at the surface.
This is an actual downward flux, not a net flux. It is calculated
using method II for clear-sky fluxes; that is at every
grid-point the radiative flux is calculated using exactly
the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.
[lbproc=128]
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude time W m-2 cftables radiation ok HadREM-CP4A_mappings.cfg
rsdscsaf E3hrPt AE3hrPt 
m01s01i520CLEAR-CLEAN DOWNWARD SW FLUX ON LEVS
Clear-sky, clean-air downwards SW flux in Wm-2 on radiation levels
(ignoring clouds and aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=0]
 longitude latitude time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsdscsafbnd E3hrPt AE3hrPt 
m01s01i528CLR DOWN SW FLUX LVS/BNDS W/GHG FORC
Clear-sky (ignoring clouds) downwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file)
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lblev=1, lbproc=0]
 longitude latitude spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsdscsbnd E3hrPt AP3hrPt 
m01s01i512CLEAR DOWN SW FLUX ON LEVS AND BANDS
Clear-sky (ignoring clouds) downwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lblev=1, lbproc=0]
 longitude latitude spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsdsdiff 3hr Eday Emon AP3hr APday APmon 
m01s01i216DIFFUSE SURFACE SW FLUX : CORRECTED
The diffuse (scattered) component of the total downward SW radiative
flux at the surface (ground or ocean surface). This diagnostic
is available on all model timesteps and has been corrected for the
solar zenith angle that is valid for the model timestep.
 Wm-2
[lbproc=128]
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rsdt Amon CFday APmon APday 
m01s01i207INCOMING SW RAD FLUX (TOA): ALL TSS
The incoming SW radiative flux from the sun. The diagnostic
is calculated for all timesteps.
[lbproc=128]
 longitude latitude time W m-2 cftables radiation ok HadREM-CP4A_mappings.cfg
rss Emon APmon 
m01s01i201NET DOWN SURFACE SW FLUX: SW TS ONLY
The net downward (total downward minus upward) radiative SW flux at the
surface (ground or ocean surface). The diagnostic is available
only on SW radiation timesteps.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean surface albedo
downward flux at the surface (001,001,235) should be diagnosed. The
mean upward flux is then the difference between the former and the
latter, and the ratio of the mean upward to the mean downward flux
gives an appropriate mean albedo. When calculating the albedo of an
extended region the upward and downward fluxes over that region should
be averaged first and then ratioed: it would be incorrect to calculate
the albedo at each individual point and take the mean of the resulting
fields as this would distort the proper flux-weighting of the
diagnostic.
[lbproc=128]
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rsu CFmon APmonLev 
correct_multilevel_metadata(
m01s01i217UPWARD SW FLUX ON LEVELS
Upwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsu4co2 CFmon APmonLev 
correct_multilevel_metadata(
m01s01i521UPWARD SW FLUX ON LEVELS W/ GHG FORC
Upwards SW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsucs CFmon APmonLev 
correct_multilevel_metadata(
m01s01i219CLEAR-SKY UPWARD SW FLUX ON LEVELS
Clear-sky upwards SW flux in Wm-2 on radiation levels.
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsucs4co2 CFmon APmonLev 
correct_multilevel_metadata(
m01s01i523CLEAR UP SW FLUX ON LEVS W/ GHG FORC
Clear-sky (ignoring clouds) upwards SW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=128])
 longitude latitude alevhalf time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsucsaf E3hrPt AE3hrPtLev 
correct_multilevel_metadata(
m01s01i519CLEAR-CLEAN UPWARD SW FLUX ON LEVELS
Clear-sky, clean-air upwards SW flux in Wm-2 on radiation levels
(ignoring clouds and aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lbproc=0])
 longitude latitude alevhalf time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsucsafbnd E3hrPt AE3hrPtLev 
correct_multilevel_metadata(
m01s01i527CLR UP SW FLUX LEVS/BNDS W/ GHG FORC
Clear-sky (ignoring clouds) upwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file)
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lbproc=0])
 longitude latitude alevhalf spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsucsbnd E3hrPt AP3hrPtLev 
correct_multilevel_metadata(
m01s01i511CLEAR UP SW FLUX ON LEVELS AND BANDS
Clear-sky (ignoring clouds) upwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lbproc=0])
 longitude latitude alevhalf spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsus 3hr Amon day AP3hr APday APmon 
m01s01i235TOTAL DOWNWARD SURFACE SW FLUX
The total downward SW radiative flux at the surface (ground
or ocean surface). The diagnostic is available only on SW radiation
timesteps.
[lbproc=128] - 
m01s01i201NET DOWN SURFACE SW FLUX: SW TS ONLY
The net downward (total downward minus upward) radiative SW flux at the
surface (ground or ocean surface). The diagnostic is available
only on SW radiation timesteps.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean surface albedo
downward flux at the surface (001,001,235) should be diagnosed. The
mean upward flux is then the difference between the former and the
latter, and the ratio of the mean upward to the mean downward flux
gives an appropriate mean albedo. When calculating the albedo of an
extended region the upward and downward fluxes over that region should
be averaged first and then ratioed: it would be incorrect to calculate
the albedo at each individual point and take the mean of the resulting
fields as this would distort the proper flux-weighting of the
diagnostic.
[lbproc=128]
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rsuscs 3hr Amon CFday AP3hr APday APmon mon day 6hr 
m01s01i211CLEAR-SKY (II) UP SURFACE SW FLUX
The upward clear-sky SW radiative flux at the surface.
It is calculated using method II for clear-sky fluxes; that is
at every grid-point the radiative flux is calculated using
exactly the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.

Note on calculating mean albedos: Temporal or spatial means of albedos
must be defined in terms of fluxes. To calculate a mean clear-sky
surface albedo the total clear-sky downward flux at the surface
should be diagnosed. These fields should be meaned in space and time
as required and then ratioed to give an albedo: it would be incorrect
to average an albedo itself as this would distort the proper
flux-weighting of the diagnostic.
[lbproc=128]
 longitude latitude time W m-2 cftables radiation ok HadREM-CP4A_mappings.cfg
rsuscsaf E3hrPt AE3hrPt 
m01s01i519CLEAR-CLEAN UPWARD SW FLUX ON LEVELS
Clear-sky, clean-air upwards SW flux in Wm-2 on radiation levels
(ignoring clouds and aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=1, lbproc=0]
 longitude latitude time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsuscsafbnd E3hrPt AE3hrPt 
m01s01i527CLR UP SW FLUX LEVS/BNDS W/ GHG FORC
Clear-sky (ignoring clouds) upwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file)
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lblev=1, lbproc=0]
 longitude latitude spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsuscsbnd E3hrPt AP3hrPt 
m01s01i511CLEAR UP SW FLUX ON LEVELS AND BANDS
Clear-sky (ignoring clouds) upwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lblev=1, lbproc=0]
 longitude latitude spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsut Amon CFday APday APmon 
m01s01i208OUTGOING SW RAD FLUX (TOA)
The outgoing SW radiative flux at the top of the atmosphere.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean albedo at a
point you should diagnose the incoming and outgoing SW radiative fluxes
the appropriate time means and take the ratio of the latter to the
former. To diagnose a spatially meaned albedo you should mean the
incoming and outgoing SW fluxes over the region in question before
taking the ratio. Note especially when using a graphics package to
plot a map of the albedo that if the package has a facility for
generating the mean of the plotted field automatically the number
you get will not be the actual mean albedo of the region as defined
from the meaned fluxes.
[lbproc=128]
commentFor instantaneous outputs, this diagnostic represents an average over the radiation time step using the state of the atmosphere (T,q,clouds) from the first dynamics step within that interval. The time coordinate is the start of the radiation time step interval, so the value for t(N) is the average from t(N) to t(N+1).
 longitude latitude time W m-2 cftables radiation ok HadREM-CP4A_mappings.cfg
rsut4co2 CFmon APmon 
m01s01i521UPWARD SW FLUX ON LEVELS W/ GHG FORC
Upwards SW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128]
 longitude latitude time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsutaf AERmon AEmon 
m01s01i517CLEAN-AIR UPWARD SW FLUX ON LEVELS
Clean-air upwards SW flux in Wm-2 on radiation levels
(ignoring aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128]
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rsutcs Amon CFday E3hr AP3hr APday APmon mon day 6hr 
m01s01i209CLEAR-SKY (II) UPWARD SW FLUX (TOA)
The outgoing clear-sky SW radiative flux at the top of the
atmosphere. This is calculated as type II; that is at every
grid-point the radiative flux is calculated using exactly
the same physical inputs (gaseous mixing ratios, surface
albedos etc.) as for the all-sky calculation, except that
the radiative effects of clouds are ignored.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean clear-sky albedo
at a point you should diagnose the incoming and outgoing clear-sky
SW radiative fluxes at the top of the atmosphere ((001,001,207) and
the latter to the former. To diagnose a spatially meaned albedo you
should mean the incoming and outgoing SW fluxes over the region in
question before taking the ratio. Note especially when using a
graphics package to plot a map of the albedo that if the package has
a facility for generating the mean of the plotted field automatically
the number you get will not be the actual mean albedo of the region as
defined from the meaned fluxes.
[lbproc=128]
 longitude latitude time W m-2 cftables radiation ok HadREM-CP4A_mappings.cfg
rsutcs4co2 CFmon APmon 
m01s01i523CLEAR UP SW FLUX ON LEVS W/ GHG FORC
Clear-sky (ignoring clouds) upwards SW flux in Wm-2 on radiation levels
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128]
 longitude latitude time W m-2 cftables ok HadREM-CP4A_mappings.cfg
rsutcsaf AERmon AEmon 
m01s01i519CLEAR-CLEAN UPWARD SW FLUX ON LEVELS
Clear-sky, clean-air upwards SW flux in Wm-2 on radiation levels
(ignoring clouds and aerosol direct effects).
This is a 3-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)
[lblev=86, lbproc=128]
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rsutcsafbnd E3hrPt AP3hrPt E3hrPt 
m01s01i527CLR UP SW FLUX LEVS/BNDS W/ GHG FORC
Clear-sky (ignoring clouds) upwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file)
diagnosed after greenhouse gas mixing ratios have been adjusted
in the 'Diagnostic forcing' panel (radfcdia namelist).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lblev=86, lbproc=0]
 longitude latitude spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rsutcsbnd E3hrPt AP3hrPt E3hrPt 
m01s01i511CLEAR UP SW FLUX ON LEVELS AND BANDS
Clear-sky (ignoring clouds) upwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lblev=86, lbproc=0]
 longitude latitude spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
rtmt Amon APmon 
m01s01i207INCOMING SW RAD FLUX (TOA): ALL TSS
The incoming SW radiative flux from the sun. The diagnostic
is calculated for all timesteps.
[lbproc=128] - 
m01s01i208OUTGOING SW RAD FLUX (TOA)
The outgoing SW radiative flux at the top of the atmosphere.

Note on Calculating Albedos: The albedo is a measure of the fraction
of incident energy reflected and therefore flux weighting must be
applied when forming means. To calculate a time-mean albedo at a
point you should diagnose the incoming and outgoing SW radiative fluxes
the appropriate time means and take the ratio of the latter to the
former. To diagnose a spatially meaned albedo you should mean the
incoming and outgoing SW fluxes over the region in question before
taking the ratio. Note especially when using a graphics package to
plot a map of the albedo that if the package has a facility for
generating the mean of the plotted field automatically the number
you get will not be the actual mean albedo of the region as defined
from the meaned fluxes.
[lbproc=128]
- 
m01s03i332TOA OUTGOING LW RAD AFTER B.LAYER
Outgoing longwave radiation at the top of the atmosphere after call to boundary
layer (W/m2). This is adjusted to be consistent the change in surface temperatu
re.

Available on all timesteps.
[lbproc=128]
 longitude latitude time W m-2 radiation ok HadREM-CP4A_mappings.cfg
rv850 6hrPlev AP6hr 
m01s30i455VORTICITY 850
VORTICITY 850
 1/s

 Relative vorticity at 850mbar.

 need to be requested to activate filter for
 FV-TRACK (see UMDP 032). Use in a single level
[blev=
P850850.0
, lbproc=128]
 longitude latitude p850 time s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
sbl LImon Eday LIday 
land_class_mean(
m01s03i331SUBLIMATION MOISTURE FLUX ON TILES
Snow sublimation moisture flux on tiles in kg/m2/s.
This was previously wrongly named as a heat flux.

Available on all timesteps.
[lbproc=128], 
m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
[lbproc=128],
land_class='all')
 longitude latitude time kg m-2 s-1 snow-permafrost ok HadREM-CP4A_mappings.cfg
sci Amon APmon 
m01s05i270SHALLOW CONVECTION INDICATOR
Type indicator for diagnosed shallow convection. Similar to boundary layer type indicators (3305 to 3310).
Set to 1.0 if true, 0.0 if not. Non-exclusive: shallow is a subset of total convection (3309+3310)

Available on all timesteps.
[lbproc=128]
 longitude latitude time 1 cloud ok HadREM-CP4A_mappings.cfg
scldncl Eday APday 
mask_using_cube(
m01s01i298CDNC @CLOUD TOP * WEIGHT
A 2-dimensional diagnostic of liquid cloud droplet number concentration
(in cm-3) as observed from above cloud top, weighted by its own specific
weight (1:01:299), by which it must be divided to be meaningful.
[lbproc=128] / 
m01s01i299WEIGHT FOR CDNC @CLOUD TOP
Weight for diagnostic.
[lbproc=128],

m01s02i391LARGE SCALE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2308) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128] + 
m01s02i392LARGE SCALE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2309) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128] - (
m01s02i395CONVECTIVE CORE LIQUID WATER PATH kg/m2
Vertical integral using gridbox mean qcl in radiation (item 2318) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]
+ 
m01s02i396CONVECTIVE CORE ICE WATER PATH kg/m2
Vertical integral using gridbox mean qcf in radiation (item 2319) and
layer mass (item 2110).
To output this diagnostic specify a single level domain
[lbproc=128]))
commentThis droplet number is estimated in PC2 scheme hence contributed from both stratiform clouds and convective clouds.
 longitude latitude time cm-3 cloud ok HadREM-CP4A_mappings.cfg
sconcdust Emon APmon 
m01s17i257TOTAL DUST CONC (microg/m3)
The total mineral dust aerosol concentration (summed over all
size divisions) on model levels at the end of the atmospheric
timestep.

Units are microgrammes per cubic metre.
[lblev=1, lbproc=128]
 longitude latitude time ug m-3 dust ok HadREM-CP4A_mappings.cfg
sfcWind 6hrPlev Amon E3hr Prim3hr day AP3hr AP6hr APday APmon 
m01s03i23010 METRE WIND SPEED ON C GRID
No help entry available.
[lbproc=128]
noteAn arbitrary choice between 'B-grid' or 'C-grid' but it would seem sensible to use the same throughout.
 longitude latitude height10m time m s-1 boundary-layer ok HadREM-CP4A_mappings.cfg
sfcWindmax Emon APmon 
mon_mean_from_day(
m01s03i23010 METRE WIND SPEED ON C GRID
No help entry available.
[lbproc=8192])
 longitude latitude height10m time m s-1 boundary-layer embargoed HadREM-CP4A_mappings.cfg
sfdms Cres6hrPt 
m01s34i071DMS MASS MIXING RATIO AFTER TIMESTEP
Dimethyl Sulphide Mass Mixing Ratio in kg/kg(Air)
[lbproc=0, lblev=1]
* (
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_DMS62.1
)
 longitude latitude time1 mol mol-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfdsi Omon OPmon 
siflsaltbot
 longitude latitude time kg m-2 s-1 seaice embargoed HadREM-CP4A_mappings.cfg
sfisop Cres6hrPt 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_ISOPRENE68.
)
* 
m01s34i027C5H8 MASS MIXING RATIO AFTER TSTEP
Isoprene Mass Mixing Ratio in kg/kg(Air)
[lbproc=0, lblev=1]
 longitude latitude time1 mol mol-1 chemistry embargoed HadREM-CP4A_mappings.cfg
sfmmrBC2 CresAERday 
m01s34i105AITKEN MODE (SOLUBLE) BC MMR
Aitken Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg C/kg air.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrBC3 CresAERday 
m01s34i109ACCUMULATION MODE (SOL) BC MMR
Accumulation Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg C/kg air.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrBC4 CresAERday 
m01s34i115COARSE MODE (SOLUBLE) BC MMR
Coarse Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg C/kg air.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrBC5 CresAERday 
m01s34i120AITKEN MODE (INSOLUBLE) BC MMR
Aitken Mode (InSoluble) Black Carbon Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg C/kg air.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrDUd1 CresAERday 
m01s00i431[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrDUd2 CresAERday 
m01s00i432[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrDUd3 CresAERday 
m01s00i433[lbproc=128,lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrDUd4 CresAERday 
m01s00i434[lbproc=128,lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrDUd5 CresAERday 
m01s00i435[lbproc=128,lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrDUd6 CresAERday 
m01s00i436[lbproc=128,lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrOA1 CresAERday 
m01s34i126NUCLEATION MODE (SOLUBLE) OM MMR
Nucleation Mode (Soluble) Organic Matter Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrOA2 CresAERday 
m01s34i106AITKEN MODE (SOLUBLE) OM MMR
Aitken Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrOA3 CresAERday 
m01s34i110ACCUMULATION MODE (SOL) OM MMR
Accumulation Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrOA4 CresAERday 
m01s34i116COARSE MODE (SOLUBLE) OM MMR
Coarse Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrOA5 CresAERday 
m01s34i121AITKEN MODE (INSOLUBLE) OM MMR
Aitken Mode (InSoluble) Organic Matter Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=128, lblev=1]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrSS2 CresAERday 
m01s34i127AITKEN MODE (SOLUBLE) SEA SALT MMR
Aitken Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrSS3 CresAERday 
m01s34i111ACCUMULATION MODE (SOL) SEA SALT MMR
Accumulation Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrSS4 CresAERday 
m01s34i117COARSE MODE (SOLUBLE) SEA SALT MMR
Coarse Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrSU1 CresAERday 
m01s34i102NUCLEATION MODE (SOLUBLE) H2SO4 MMR
Nucleation Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrSU2 CresAERday 
m01s34i104AITKEN MODE (SOLUBLE) H2SO4 MMR
Aitken Mode (Soluble) Aerosol H2SO4 Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrSU3 CresAERday 
m01s34i108ACCUMULATION MODE (SOL) H2SO4 MMR
Accumulation Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrSU4 CresAERday 
m01s34i114COARSE MODE (SOLUBLE) H2SO4 MMR
Coarse Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrbc Cres6hrPt 
m01s34i105AITKEN MODE (SOLUBLE) BC MMR
Aitken Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1] + 
m01s34i109ACCUMULATION MODE (SOL) BC MMR
Accumulation Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1]
+ 
m01s34i115COARSE MODE (SOLUBLE) BC MMR
Coarse Mode (Soluble) Black Carbon Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1] + 
m01s34i120AITKEN MODE (INSOLUBLE) BC MMR
Aitken Mode (InSoluble) Black Carbon Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=0, lblev=1]
commentReported as kg C/kg air.
 longitude latitude time1 kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrdust CresAERday 
m01s00i431[lbproc=128, lblev=1] + m01s00i432[lbproc=128, lblev=1]
+ m01s00i433[lbproc=128, lblev=1] + m01s00i434[lbproc=128, lblev=1]
+ m01s00i435[lbproc=128, lblev=1]
+ m01s00i436[lbproc=128, lblev=1]
 longitude latitude time kg kg-1 dust embargoed HadREM-CP4A_mappings.cfg
sfmmrdustabv1 Cres6hrPt 
m01s00i434[lbproc=0, lblev=1]
+ m01s00i435[lbproc=0, lblev=1]
+ m01s00i436[lbproc=0, lblev=1]
 longitude latitude time1 kg kg-1 dust embargoed HadREM-CP4A_mappings.cfg
sfmmrdustabv10 Cres6hrPt 
m01s00i436[lbproc=0, lblev=1]
 longitude latitude time1 kg kg-1 dust embargoed HadREM-CP4A_mappings.cfg
sfmmrdustbel1 Cres6hrPt 
m01s00i431[lbproc=0, lblev=1] + m01s00i432[lbproc=0, lblev=1]
+ m01s00i433[lbproc=0, lblev=1]
 longitude latitude time1 kg kg-1 dust embargoed HadREM-CP4A_mappings.cfg
sfmmroa Cres6hrPt 
m01s34i106AITKEN MODE (SOLUBLE) OM MMR
Aitken Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1] + 
m01s34i110ACCUMULATION MODE (SOL) OM MMR
Accumulation Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1]
+ 
m01s34i116COARSE MODE (SOLUBLE) OM MMR
Coarse Mode (Soluble) Organic Matter Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1] + 
m01s34i121AITKEN MODE (INSOLUBLE) OM MMR
Aitken Mode (InSoluble) Organic Matter Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=0, lblev=1]
+ 
m01s34i126NUCLEATION MODE (SOLUBLE) OM MMR
Nucleation Mode (Soluble) Organic Matter Aerosol
Mass Mixing Ratio in kg/kg(Air)
[lbproc=0, lblev=1]
commentReported as kg OM/kg air using a ratio of 1.4 C/OM.
 longitude latitude time1 kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrso4 Cres6hrPt 
(
MOLECULAR_MASS_OF_SO496.
 / 
MOLECULAR_MASS_OF_H2SO498.
)
* (
m01s34i102NUCLEATION MODE (SOLUBLE) H2SO4 MMR
Nucleation Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1]
+ 
m01s34i104AITKEN MODE (SOLUBLE) H2SO4 MMR
Aitken Mode (Soluble) Aerosol H2SO4 Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1]
+ 
m01s34i108ACCUMULATION MODE (SOL) H2SO4 MMR
Accumulation Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1]
+ 
m01s34i114COARSE MODE (SOLUBLE) H2SO4 MMR
Coarse Mode (Soluble) H2SO4 Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1])
 longitude latitude time1 kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfmmrss Cres6hrPt 
m01s34i111ACCUMULATION MODE (SOL) SEA SALT MMR
Accumulation Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1] + 
m01s34i117COARSE MODE (SOLUBLE) SEA SALT MMR
Coarse Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1]
+ 
m01s34i127AITKEN MODE (SOLUBLE) SEA SALT MMR
Aitken Mode (Soluble) Sea Salt Aerosol Mass Mixing Ratio
in kg/kg(Air)
[lbproc=0, lblev=1]
 longitude latitude time1 kg kg-1 aerosol embargoed HadREM-CP4A_mappings.cfg
sfno2 AERhr AE1hr 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_NO30.
2)
* 
m01s34i996NO2 MASS MIXING RATIO AFTER TIMESTEP
Mass mixing ratio of NO2 (kg/kg)
This variable is a prognostic but is not advected.
[lblev=1, lbproc=128]
 longitude latitude time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
sfo3 AERhr AE1hr 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_O348.
)
* 
m01s34i001O3 MASS MIXING RATIO AFTER TIMESTEP
Ozone Mass Mixing Ratio in kg/kg(Air)
[lblev=1, lbproc=128]
 longitude latitude time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
sfo3max AERday AEday 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_O348.
)
* 
m01s34i001O3 MASS MIXING RATIO AFTER TIMESTEP
Ozone Mass Mixing Ratio in kg/kg(Air)
[lblev=1, lbproc=8192]
 longitude latitude time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
sftgif fx LPfx 
m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
commentThe fraction of grid cell occupied by 'permanent' ice (i.e., glaciers).
 longitude latitude typeli % snow-permafrost embargoed HadREM-CP4A_mappings.cfg
sftlf fx APfx mon day 6hr 3hr 1hr 
m01s00i505
 longitude latitude typeland 1 land ok HadREM-CP4A_mappings.cfg
sftof Ofx OPfx 
sftof
 longitude latitude typesea % ocean ok HadREM-CP4A_mappings.cfg
siage SImon 
iage * 
SECONDS_IN_DAY86400.
 * 
DAYS_IN_YEAR360.
 longitude latitude time s seaice ok HadREM-CP4A_mappings.cfg
sialb SImon 
m01s01i505SEA ICE ALBEDO, WEIGHTED (aggregate)
Upward shortwave radiation, multiplied by sea-ice fraction, and divided by
 downward shortwave radiation (aggregate over all ice thickness categories)
[lbproc=128] / m01s00i031[lbproc=128]
 longitude latitude time 1 seaice embargoed HadREM-CP4A_mappings.cfg
sicompstren SImon 
sicompstren
 longitude latitude time N m-1 seaice ok HadREM-CP4A_mappings.cfg
siconc SImon 
aice
 longitude latitude typesi time 1 seaice ok HadREM-CP4A_mappings.cfg
siconca SIday SImon mon day 
m01s00i031[lbproc=128]
 longitude latitude typesi time 1 seaice ok HadREM-CP4A_mappings.cfg
sidconcdyn SImon 
sidconcdyn
 longitude latitude time s-1 seaice ok HadREM-CP4A_mappings.cfg
sidconcth SImon 
sidconcth
 longitude latitude time s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmassdyn SImon 
dvidtd * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmassevapsubl SImon 
-1 * evap_ai * 
FRESHWATER_DENSITY1000.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmassgrowthbot SImon 
congel * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmassgrowthwat SImon 
frazil * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmasslat SImon 
-1 * meltl * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmassmeltbot SImon 
-1 * meltb * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmassmelttop SImon 
-1 * meltt * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmasssi SImon 
snoice * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmassth SImon 
dvidtt * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmasstranx SImon 
sidmasstranx
 longitude latitude time kg s-1 seaice ok HadREM-CP4A_mappings.cfg
sidmasstrany SImon 
sidmasstrany
 longitude latitude time kg s-1 seaice ok HadREM-CP4A_mappings.cfg
sidragtop SImon 
m01s03i538SEA AND SEA ICE DRAG COEFFICIENT
Combined drag coefficient for momentum over open ocean, marginal ice and pack ice.
This is field cd_ssi in JULES routine sf_exch. (dimensionless)
[lbproc=128] / m01s00i031[lbproc=128]
 longitude latitude time 1 seaice ok HadREM-CP4A_mappings.cfg
sifb SImon 
sifb
 longitude latitude time m seaice ok HadREM-CP4A_mappings.cfg
siflcondbot SImon 
siflcondbot
 longitude latitude time W m-2 seaice ok HadREM-CP4A_mappings.cfg
siflcondtop SImon 
siflcondtop
 longitude latitude time W m-2 seaice ok HadREM-CP4A_mappings.cfg
siflfwbot SImon 
((meltt + meltb + meltl - congel - frazil) * 
ICE_DENSITY917.
 + melts
* 
SNOW_DENSITY330.
) / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice embargoed HadREM-CP4A_mappings.cfg
siflfwdrain SImon 
(meltt * 
ICE_DENSITY917.
 + melts * 
SNOW_DENSITY330.
)
/ (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice embargoed HadREM-CP4A_mappings.cfg
sifllatstop SImon 
-1. * flat_ai / aice
 longitude latitude time W m-2 seaice embargoed HadREM-CP4A_mappings.cfg
sifllwdtop SImon 
m01s02i501LW DOWN OVER ICE, WGHTD (aggr)(W/m2)
Downward longwave radiation multiplied by sea-ice fraction
(aggregate over all ice thickness categories)
[lbproc=128] / m01s00i031[lbproc=128]
 longitude latitude time W m-2 seaice ok HadREM-CP4A_mappings.cfg
sifllwutop SImon 
m01s03i531LW UP OVER ICE, WEIGHTED(aggr)(W/m2)
Upward longwave radiation multiplied by sea-ice fraction
(aggregate over all ice thickness categories)
(calculated after surface temperature is updated in boundary layer scheme)
[lbproc=128] / m01s00i031[lbproc=128]
 longitude latitude time W m-2 seaice ok HadREM-CP4A_mappings.cfg
siflsaltbot SImon 
((meltt + meltb + meltl - congel - frazil) * 
ICE_DENSITY917.
 + melts
* 
SNOW_DENSITY330.
) / (100. * 
SECONDS_IN_DAY86400.
 * aice) * 
REF_SALINITY8.
 / 1000.
 longitude latitude time kg m-2 s-1 seaice embargoed HadREM-CP4A_mappings.cfg
siflsenstop SImon 
-1. * 
m01s03i533SENS. HF OVER ICE, WGTED(aggr)(W/m2)
Sensible heat flux multiplied by sea-ice fraction
(aggregate over all ice thickness categories)
[lbproc=128] / m01s00i031[lbproc=128]
 longitude latitude time W m-2 seaice embargoed HadREM-CP4A_mappings.cfg
siflsensupbot SImon 
siflsensupbot
 longitude latitude time W m-2 seaice embargoed HadREM-CP4A_mappings.cfg
siflswdtop SImon 
m01s01i501SW DOWN OVER ICE, WGHTD (aggr)(W/m2)
Downward shortwave radiation multiplied by sea-ice fraction
(aggregate over all ice thickness categories)
[lbproc=128] / m01s00i031[lbproc=128]
 longitude latitude time W m-2 seaice embargoed HadREM-CP4A_mappings.cfg
siflswutop SImon 
m01s01i503SW UP OVER ICE, WGHTED (aggr)(W/m2)
Upward shortwave radiation multiplied by sea-ice fraction
(aggregate over all ice thickness categories)
[lbproc=128] / m01s00i031[lbproc=128]
 longitude latitude time W m-2 seaice embargoed HadREM-CP4A_mappings.cfg
siforcecoriolx SImon 
siforcecoriolx
 longitude latitude time N m-2 seaice ok HadREM-CP4A_mappings.cfg
siforcecorioly SImon 
siforcecorioly
 longitude latitude time N m-2 seaice ok HadREM-CP4A_mappings.cfg
siforceintstrx SImon 
siforceintstrx
 longitude latitude time N m-2 seaice ok HadREM-CP4A_mappings.cfg
siforceintstry SImon 
siforceintstry
 longitude latitude time N m-2 seaice ok HadREM-CP4A_mappings.cfg
siforcetiltx SImon 
siforcetiltx
 longitude latitude time N m-2 seaice ok HadREM-CP4A_mappings.cfg
siforcetilty SImon 
siforcetilty
 longitude latitude time N m-2 seaice ok HadREM-CP4A_mappings.cfg
sihc SImon 
sihc
 longitude latitude time J m-2 seaice ok HadREM-CP4A_mappings.cfg
siitdconc SImon 
aicen
 longitude latitude iceband time 1 seaice ok HadREM-CP4A_mappings.cfg
siitdsnconc SImon 
snowfracn
 longitude latitude iceband time 1 seaice ok HadREM-CP4A_mappings.cfg
siitdsnthick SImon 
vsnon / aicen
 longitude latitude iceband time m seaice ok HadREM-CP4A_mappings.cfg
siitdthick SImon 
vicen / aicen
 longitude latitude iceband time m seaice ok HadREM-CP4A_mappings.cfg
simass SImon 
hi * 
ICE_DENSITY917.
 longitude latitude time kg m-2 seaice ok HadREM-CP4A_mappings.cfg
simpconc SImon 
apond_ai / aice
commentThis is requested as an 'area fraction of the sea ice surface'. Hence it is intensive, and should be multiplied at each timestep by ice area then divided by mean ice area.
 longitude latitude typemp time 1 seaice ok HadREM-CP4A_mappings.cfg
simpmass SImon 
hpond_ai / aice
commentAs an intensive variable, this needs to be multiplied by ice area each timestep (hence hpond_ai), then divided by mean ice area.
 longitude latitude time m seaice ok HadREM-CP4A_mappings.cfg
simprefrozen SImon 
ipond_ai / apond_ai
commentThis is a confusing variable. It is 'doubly intensive', as it depends on melt pond area. For consistency, I am going to report the requested variable, multiplied at each timestep by meltpond area and ice area (hence ipond_ai), and then divide at the end by meltpond area and ice area.
 longitude latitude time m seaice ok HadREM-CP4A_mappings.cfg
sipr SImon 
rain_ai * 
FRESHWATER_DENSITY1000.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice embargoed HadREM-CP4A_mappings.cfg
sirdgconc SImon 
ardg
 longitude latitude typesirdg time 1 seaice ok HadREM-CP4A_mappings.cfg
sirdgthick SImon 
vrdg / ardg
 longitude latitude time m seaice embargoed HadREM-CP4A_mappings.cfg
sisaltmass SImon 
sisaltmass
noteThe interpretation of this variable in CICE is not obvious as CICE has two simultaneous salinity profiles (when prognostic salinity is not being used).
 longitude latitude time kg m-2 seaice ok HadREM-CP4A_mappings.cfg
sisnconc SImon 
snowfrac / aice
 longitude latitude time 1 seaice ok HadREM-CP4A_mappings.cfg
sisnhc SImon 
sisnhc
 longitude latitude time J m-2 seaice ok HadREM-CP4A_mappings.cfg
sisnmass SImon 
hs * 
SNOW_DENSITY330.
 longitude latitude time kg m-2 seaice ok HadREM-CP4A_mappings.cfg
sisnthick SImon 
sisnthick
 longitude latitude time m seaice ok HadREM-CP4A_mappings.cfg
sispeed SImon 
sispeed
 longitude latitude time m s-1 seaice ok HadREM-CP4A_mappings.cfg
sistrxdtop SImon 
sistrxdtop
 longitude latitude time N m-2 seaice embargoed HadREM-CP4A_mappings.cfg
sistrxubot SImon 
sistrxubot
 longitude latitude time N m-2 seaice embargoed HadREM-CP4A_mappings.cfg
sistrydtop SImon 
sistrydtop
 longitude latitude time N m-2 seaice embargoed HadREM-CP4A_mappings.cfg
sistryubot SImon 
sistryubot
 longitude latitude time N m-2 seaice embargoed HadREM-CP4A_mappings.cfg
sitempbot SImon 
sitempbot
 longitude latitude time K seaice ok HadREM-CP4A_mappings.cfg
sitemptop SIday SImon 
m01s03i535TSTAR OVER ICE, WEIGHTED(aggr)(K)
Sea-ice surface temperature multiplied by sea-ice fraction
(aggregate over all ice thickness categories)
[lbproc=128] / m01s00i031[lbproc=128]
 longitude latitude time K seaice ok HadREM-CP4A_mappings.cfg
sithick SImon 
sithick
 longitude latitude time m seaice ok HadREM-CP4A_mappings.cfg
sitimefrac SImon 
ice_present
 longitude latitude time 1 seaice ok HadREM-CP4A_mappings.cfg
siu SImon 
siu
 longitude latitude time m s-1 seaice ok HadREM-CP4A_mappings.cfg
siv SImon 
siv
 longitude latitude time m s-1 seaice ok HadREM-CP4A_mappings.cfg
sivol SImon 
hi
 longitude latitude time m seaice ok HadREM-CP4A_mappings.cfg
sltbasin EmonZ OPmonZ 
1.026 * combine_cubes_to_basin_coord(sltbasin_global,
sltbasin_atlantic, sltbasin_indopacific, mask_global=global_ocean_1D_V,
mask_atl=atlantic_arctic_ocean_1D_V, mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time Tg s-1 ocean ok HadREM-CP4A_mappings.cfg
sltovgyre Omon OPmonZ 
1.026 * combine_cubes_to_basin_coord(sltovgyre_global,
sltovgyre_atlantic, sltovgyre_indopacific, mask_global=global_ocean_1D_V,
mask_atl=atlantic_arctic_ocean_1D_V, mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time Tg s-1 ocean ok HadREM-CP4A_mappings.cfg
sltovovrt Omon OPmonZ 
1.026 * combine_cubes_to_basin_coord(sltovovrt_global,
sltovovrt_atlantic, sltovovrt_indopacific, mask_global=global_ocean_1D_V,
mask_atl=atlantic_arctic_ocean_1D_V, mask_indpac=indian_pacific_ocean_1D_V)
commentThe latitude coordinate is for reference only and is the closest native grid line passing through 65.6 N, 168.7 W (Bering Strait). The atlantic_arctic_ocean basin includes the baltic_sea and hudson_bay basins and the right-hand half of the arctic_ocean basin (with respect to the native model grid). The indian_pacific_ocean basin includes the red_sea basin. This diagnostic has been calculated with respect to the native grid and NOT with respect to true north as requested.
 latitude basin time Tg s-1 ocean ok HadREM-CP4A_mappings.cfg
snc day LImon LIday 
snc_calc(
m01s08i236SNOW AMOUNT ON TILES           KG/M2
Amount of snow (Kg/m2) of each surface tile

Available on land points only.
[lbproc=128],

m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
[lbproc=128],

m01s03i395FRACTION OF LAND
This item is the fraction of land in the gridbox.
[lbproc=128])
commentA threshold is applied to determine whether a tile is covered in snow or not - if a tile has more than 0.1 kg/m2 of snow it is considered as covered with snow, if less then there is no snow. This means other snow diagnostics may indicate snow but this diagnostic is zero. We have not applied a threshold to the other snow diagnostics (unless explicitly noted) to preserve mass conservation.
 longitude latitude time % snow-permafrost ok HadREM-CP4A_mappings.cfg
snd Eday LImon LIday 
land_class_mean(
m01s08i376SNOW DEPTH ON GROUND ON TILES (M)
The total physical depth of snow (in units of metres) on the ground on each tile.
This field is available only on land points. In the case of the zero-layer scheme, it
is calculated from the snow mass, assuming a constant density, but, in the case of
the multilayer scheme it incorporates the effects of densification of the snow pack.
[lbproc=128],

m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
[lbproc=128],
land_class='all')
commentThis includes snow on the canopy of the needleleaf trees.
 longitude latitude time m snow-permafrost ok HadREM-CP4A_mappings.cfg
sndmassdyn SImon 
dvsdtd * 
SNOW_DENSITY330.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sndmassmelt SImon 
-1 * melts * 
SNOW_DENSITY330.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sndmasssi SImon 
-1 * snoice * 
ICE_DENSITY917.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
sndmasssnf SImon 
snow_ai * 
FRESHWATER_DENSITY1000.
 / (100. * 
SECONDS_IN_DAY86400.
)
 longitude latitude time kg m-2 s-1 seaice ok HadREM-CP4A_mappings.cfg
snm Eday LImon LIday 
land_class_mean(
m01s08i237SNOW MELT RATE ON TILES      KG/M2/S
Rate of snow melt (Kg/m2/s) on each surface tile

Available on land points only.
[lbproc=128], 
m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
[lbproc=128],
land_class='all')
 longitude latitude time kg m-2 s-1 snow-permafrost ok HadREM-CP4A_mappings.cfg
snw day LImon LIday 
land_class_mean(
m01s08i236SNOW AMOUNT ON TILES           KG/M2
Amount of snow (Kg/m2) of each surface tile

Available on land points only.
[lbproc=128], 
m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
[lbproc=128],
land_class='all')
commentThis includes snow on the canopy of the needleleaf trees.
 longitude latitude time kg m-2 snow-permafrost ok HadREM-CP4A_mappings.cfg
so Omon OPmonLev 
so
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time 1e-3 ocean ok HadREM-CP4A_mappings.cfg
so2 AERmon AEmonLev 
m01s34i072SO2 MASS MIXING RATIO AFTER TIMESTEP
Sulphur dioxide Mass Mixing Ratio in kg/kg(Air)
[lbproc=128] * (
MOLECULAR_MASS_OF_AIR28.97

/ 
MOLECULAR_MASS_OF_SO264.
)
 longitude latitude alevel time mol mol-1 aerosol ok HadREM-CP4A_mappings.cfg
sob Omon OPmon 
sob
 longitude latitude time 1e-3 ocean ok HadREM-CP4A_mappings.cfg
soga Omon OPmon 
soga
 time 1e-3 ocean ok HadREM-CP4A_mappings.cfg
solbnd E3hrPt AP3hrPt 
m01s01i510DOWNWARD SW FLUX ON LEVELS AND BANDS
Downwards SW flux in Wm-2 on radiation levels
and on SW bands (as defined in the SW spectral file).

This is a 4-dimensional field available on radiation timesteps.

The domain profile should set model rho levels starting at ATMOS_BOTTOM
and ending at ATMOS_TOP+1. The levels correspond to:
1              : Surface
2 to ATMOS_TOP : rho levels 2 to ATMOS_TOP
ATMOS_TOP+1    : Top of atmosphere

(ATMOS_TOP+1 is strictly defined such that theta(ATMOS_TOP) is midway in
height between rho(ATMOS_TOP) and ATMOS_TOP+1.)

Pseudo-levels should be set to SW bands (1 to 6 for GA7 spectral files).
[lblev=86, lbproc=0]
 longitude latitude spectband time1 W m-2 radiation embargoed HadREM-CP4A_mappings.cfg
somint Emon OPmon 
somint
commentFull column sum of density * cell thickness * salinity. If the model is Boussinesq, then use Boussinesq reference density for the density factor.
 longitude latitude time 1e-3 kg m-2 ocean ok HadREM-CP4A_mappings.cfg
sos Oday Omon OPmon OPday 
sos
 longitude latitude time 1e-3 ocean ok HadREM-CP4A_mappings.cfg
sosga Oday Omon OPmon 
area_mean(sos, areacello)
 time 1e-3 ocean ok HadREM-CP4A_mappings.cfg
sossq Oday Omon OPmon OPday 
sossq
 longitude latitude time 1e-6 ocean ok HadREM-CP4A_mappings.cfg
sweLut Emon LPmon 
land_use_tile_mean(

m01s08i236SNOW AMOUNT ON TILES           KG/M2
Amount of snow (Kg/m2) of each surface tile

Available on land points only.
[lbproc=128] / 
FRESHWATER_DENSITY1000.
, 
m01s03i317SURFACE TILE FRACTIONS
Fractions of "underlying" surface types (ie: without moving their
snow-covered fraction to the ice tile).  Same as prognostic (1, 0, 216).

The tiles are:
1. Broadleaf tree
2. Needleleaf tree
3. C3 grass
4. C4 grass
5. Shrub
6. Urban
7. Water
8. Bare Soil
9. Ice

and all may include snow cover.

Same as prognostics (1, 0, 216).

Only available with A03_7A.
Available on all timesteps.
[lbproc=128])
 longitude latitude landUse time m snow-permafrost ok HadREM-CP4A_mappings.cfg
t2 Emon APmonLev 
m01s30i044[lbproc=128] / 
m01s30i115DRY MASS WEIGHTING MODEL LEV  KG/M2
Included in case anyone wants to know the mass weighting being
applied in the diagnostics 30011 to 30077

Diagnostics 30001 to 30107 fields on model rho grid.
These diagnostics are available primarly for looking at transients etc
on model levels. All fields are on the rho grid points which is not the
model grid for most fields. There are 7 basic fields available;
1 - U
2 - V
3 - w
4 - temperature
5 - specific humidity
6 - height
7 - Ke energy (0.5*(u*u+v*v+w*w))
Plus their mass weighted version 101-107, plus products of fields
mass weighted. At present the mass weighting is the dry mass not the wet
mass of the gridbox. It is not recommended to include all these fields
in every run as they will increase the memory requirement and output
by a large amount. All the mass weighted diagnostic products have been
scaled by 1.e-5 to aviod problems with the numbers getting to be as big
as the missing data value of -32768*32768.

Diagnostics 30422-30439
These diagnostics are column integrals of various fluxes and may be useful
when looking at model budgets. In many cases they are summation of the
fields 30011 to 30077 over all model levels. Unless a vertical profile
of fluxes is required then these diagnostics may be more useful than the
30011-30077 and will take up far less space.
[lbproc=128]
 longitude latitude alevel time 1e5 K2 atmos-physics ok HadREM-CP4A_mappings.cfg
t20d Eday Emon OPday OPmon 
t20d
notePMIP variables: Variable will be output with a time dimension and with cell_methods for time.
 longitude latitude time m ocean ok HadREM-CP4A_mappings.cfg
ta Amon Eday APmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time K atmos-physics ok HadREM-CP4A_mappings.cfg
ta10 GCAmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P1010.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
, lbproc=128]
 longitude latitude time p10 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta100 GCAmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P1010.0
0, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
0, lbproc=128]
 longitude latitude time p100 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta1000 GCAmon day 6hr 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P1010.0
00, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
commenton UV points
 longitude latitude time p1000 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta150 GCAmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P150150.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P150150.0
, lbproc=128]
 longitude latitude time p150 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta20 GCAmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P2020.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
, lbproc=128]
 longitude latitude time p20 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta200 GCAmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
commenton UV points
 longitude latitude time p200 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta250 GCAmon mon day 6hr 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P250250.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
commenton UV points
 longitude latitude time p250 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta27 Emon APmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
 longitude latitude plev27 time K atmos-physics ok HadREM-CP4A_mappings.cfg
ta30 GCAmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P3030.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
, lbproc=128]
 longitude latitude time p30 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta300 GCAmon mon day 6hr 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P3030.0
0, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
commenton UV points
 longitude latitude time p300 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta400 GCAmon mon day 6hr 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P400400.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
commenton UV points
 longitude latitude time p400 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta50 GCAmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P5050.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
, lbproc=128]
 longitude latitude time p50 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta500 Eday GCAmon APday 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P5050.0
0500.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
commenton UV points
 longitude latitude p500 time K atmos-physics ok HadREM-CP4A_mappings.cfg
ta600 GCAmon mon day 6hr 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P600600.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
commenton UV points
 longitude latitude time p600 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta70 GCAmon 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P7070.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
, lbproc=128]
 longitude latitude time p70 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
ta700 CFday GCAmon APday mon day 6hr 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P7070.0
0700.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
commenton UV points
 longitude latitude p700 time K cftables ok HadREM-CP4A_mappings.cfg
ta7h 6hrPlevPt E3hrPt AP6hrPt AP3hrPt 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 K atmos-physics ok HadREM-CP4A_mappings.cfg
ta850 Eday GCAmon APday 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P850850.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
commenton UV points
 longitude latitude p850 time K atmos-physics ok HadREM-CP4A_mappings.cfg
ta925 GCAmon mon day 6hr 
m01s30i294TEMPERATURE ON P LEV/T GRID
Temperature on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are K
[blev=
P925925.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
commenton UV points
 longitude latitude time p925 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
tas 6hrPlev Amon day CresAERday Cres1HrMn AP6hr APday APmon mon 1hr 
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=128]
 longitude latitude height2m time K boundary-layer ok HadREM-CP4A_mappings.cfg
tasmax Amon CresAERday APmon mon 
mon_mean_from_day(
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=8192])
 longitude latitude height2m time K atmos-physics ok HadREM-CP4A_mappings.cfg
tasmin Amon APmon mon 
mon_mean_from_day(
m01s03i236TEMPERATURE AT 1.5M
Estimate of atmospheric temperature (K) at 1.5m (screen level).
Calculated by integrating the similarity equations from the
surface to 1.5m.

Available on all timesteps.
[lbproc=4096])
 longitude latitude height2m time K atmos-physics ok HadREM-CP4A_mappings.cfg
tatp AERmon AEmon 
m01s30i452[lbproc=128]
 longitude latitude time K atmos-physics embargoed HadREM-CP4A_mappings.cfg
tauu Amon Eday APday APmon 
m01s03i460X-COMP SURFACE BL STRESS
The x component of the surface stress in N/M2. This is included to allow
correct diagnosis and labelling of surface stress without the need for a STASH work
around.
[lbproc=128]
commentThis variable includes a contribution from the turbulent form drag of small-scale hills that cannot be diagnosed separately within the MetUM model.
 longitude latitude time Pa boundary-layer ok HadREM-CP4A_mappings.cfg
tauuo Omon OPmon 
mask_copy(tauuo, mask_2D_U)
 longitude latitude time N m-2 ocean ok HadREM-CP4A_mappings.cfg
tauupbl Eday APday 
m01s03i460X-COMP SURFACE BL STRESS
The x component of the surface stress in N/M2. This is included to allow
correct diagnosis and labelling of surface stress without the need for a STASH work
around.
[lbproc=128]
 longitude latitude time Pa boundary-layer ok HadREM-CP4A_mappings.cfg
tauv Amon Eday APday APmon 
m01s03i461Y-COMP SURFACE BL STRESS
The y component of the surface stress in N/M2. This is included to allow
correct diagnosis and labelling of surface stress without the need for a STASH work
around.
[lbproc=128]
commentThis variable includes a contribution from the turbulent form drag of small-scale hills that cannot be diagnosed separately within the MetUM model.
 longitude latitude time Pa boundary-layer ok HadREM-CP4A_mappings.cfg
tauvo Omon OPmon 
mask_copy(tauvo, mask_2D_V)
 longitude latitude time N m-2 ocean ok HadREM-CP4A_mappings.cfg
tauvpbl Eday APday 
m01s03i461Y-COMP SURFACE BL STRESS
The y component of the surface stress in N/M2. This is included to allow
correct diagnosis and labelling of surface stress without the need for a STASH work
around.
[lbproc=128]
 longitude latitude time Pa boundary-layer ok HadREM-CP4A_mappings.cfg
tdps Eday Emon APday APmon 
m01s03i250[lbproc=128]
 longitude latitude time K boundary-layer embargoed HadREM-CP4A_mappings.cfg
tgs Eday LPday 
m01s03i316SURFACE TEMP ON TILES              K
Surface temperature on each surface tiles

Available on all timesteps.
[lbplev=8, lbproc=128]
 longitude latitude time K land ok HadREM-CP4A_mappings.cfg
thetao Omon OPmonLev 
thetao
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time degC ocean ok HadREM-CP4A_mappings.cfg
thetaoga Omon OPmon 
thetaoga
 time degC ocean ok HadREM-CP4A_mappings.cfg
thetaot Emon OPmon 
level_mean(thetao, thkcello)
 longitude latitude time degC ocean ok HadREM-CP4A_mappings.cfg
thetaot2000 Emon OPmon 
level_mean(thetao[depth<2025], thkcello[depth<2025])
 longitude latitude time degC ocean ok HadREM-CP4A_mappings.cfg
thetaot300 Emon OPmon 
level_mean(thetao[depth<300], thkcello[depth<300])
 longitude latitude time degC ocean ok HadREM-CP4A_mappings.cfg
thetaot700 Emon OPmon 
level_mean(thetao[depth<735], thkcello[depth<735])
 longitude latitude time degC ocean ok HadREM-CP4A_mappings.cfg
thkcello Omon OPmonLev 
thkcello
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time m ocean ok HadREM-CP4A_mappings.cfg
tnhus CFmon APmonLev 
m01s30i182Q TOTAL INCREMENT ON MODEL LEVELS
Total increment to prognostic q over a model timestep.
Units kg/kg/timestep.
[lbproc=128] / ATMOS_TIMESTEP
 longitude latitude alevel time s-1 cftables ok HadREM-CP4A_mappings.cfg
tnhusa CFmon APmonLev 
(
m01s12i182Q INCR: advect      kg/kg/timestep
Increments from section 12 (12181-12187)  Semi-lagrangian advection.

Note the increments from the semi-lagrangain advection include
both the basic advection increment ie the increment to q say purely based on
the start of timestep value and the calculation to determine the new value
at the location, and  a part due to the advection of the sum of the increments
to q (dq) calculated by atmos_phys1. The part due to the advection of the
increments is usually much smaller. All increments have units of change in
the field per timestep.
[lbproc=128] + 
m01s12i382Q INC DUE TO ADV CORRECTION
Increment to q due to corrections to advection scheme
Units kg/kg/timestep.
[lbproc=128]) / ATMOS_TIMESTEP
noteObtained by advection plus solver
 longitude latitude alevel time s-1 cftables ok HadREM-CP4A_mappings.cfg
tnhusc CFmon APmonLev 
m01s05i162SPECIFIC HUMIDITY INCR: convection
Specific humidity increments from convection only in kg/kg per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=128] / ATMOS_TIMESTEP
 longitude latitude alevel time s-1 cftables ok HadREM-CP4A_mappings.cfg
tnhusmp CFmon APmonLev 
(
m01s01i182SPECIFIC HUMIDITY INCR: swrad scheme
This is the increment across the shortwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128] + 
m01s02i182SPECIFIC HUMIDITY INCR: lwrad scheme
This is the increment across the longwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128]
+ 
m01s03i182SPECIFIC HUMIDITY INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128] + 
m01s04i142SPECIFIC HUMIDITY INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + 
m01s04i182SPECIFIC HUMIDITY INCR: ls rain
Vapour increment from the large-scale precipitation scheme and the
balancing cloud scheme call.
This is the gridbox mean change in specific humidity (in kg of vapour
per kg of air) in each gridbox solely as a result of the large-scale
precipitation scheme.
[lbproc=128]
+ 
m01s04i982Q     INCR: methane oxidation
Total increment to specific humidity from methane oxidation in
kg/kg per model physics time step.
[lbproc=128] + 
m01s05i182Q     INCR: convection +(PC2 inhom)
Total increment to specific humidity from the convection section in
kg/kg per model physics time step. This may include increments from
PC2 inhomogeneous forcing as well as convection if PC2 is switched on.

Convection can have several sweeps per model timestep, this diagnostic
holds the total increment. Available every model physics timestep.
[lbproc=128] + 
m01s16i162SPECIFIC HUMIDITY INCR: pc2 initiali
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]
+ 
m01s16i182SPECIFIC HUMIDITY INCR: pc2 pressure
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + 
m01s35i025Q TENDENCY SPT INCREMENT
Increment of q done by the SPT (kg/kg).
[lbproc=128] ) / ATMOS_TIMESTEP
noteMethane Oxidation added.
 longitude latitude alevel time s-1 cftables ok HadREM-CP4A_mappings.cfg
tnhuspbl Emon APmonLev 
m01s03i190TOTAL (LIQ) WATER INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
total specific water content ( qT = q + qCL ), in kg of moisture per kg of air.

WARNING : May change to mass mixing ratio from UM VN5.4.

The boundary layer scheme advects total water content rather than specific
humidity and therefore does not produce a direct increment in specific
humidity.
However, see related variable (1, 9, 182) SPEC HUMIDITY INC: bdy layr + ls cld.

Available on all timesteps.
[lbproc=128] / ATMOS_TIMESTEP
 longitude latitude alevel time s-1 cftables ok HadREM-CP4A_mappings.cfg
tnhusscp Emon APmonLev 
(
m01s01i182SPECIFIC HUMIDITY INCR: swrad scheme
This is the increment across the shortwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128] + 
m01s02i182SPECIFIC HUMIDITY INCR: lwrad scheme
This is the increment across the longwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128]
+ 
m01s03i182SPECIFIC HUMIDITY INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128] - 
m01s03i190TOTAL (LIQ) WATER INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
total specific water content ( qT = q + qCL ), in kg of moisture per kg of air.

WARNING : May change to mass mixing ratio from UM VN5.4.

The boundary layer scheme advects total water content rather than specific
humidity and therefore does not produce a direct increment in specific
humidity.
However, see related variable (1, 9, 182) SPEC HUMIDITY INC: bdy layr + ls cld.

Available on all timesteps.
[lbproc=128] + 
m01s04i142SPECIFIC HUMIDITY INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]
+ 
m01s04i182SPECIFIC HUMIDITY INCR: ls rain
Vapour increment from the large-scale precipitation scheme and the
balancing cloud scheme call.
This is the gridbox mean change in specific humidity (in kg of vapour
per kg of air) in each gridbox solely as a result of the large-scale
precipitation scheme.
[lbproc=128] + 
m01s05i182Q     INCR: convection +(PC2 inhom)
Total increment to specific humidity from the convection section in
kg/kg per model physics time step. This may include increments from
PC2 inhomogeneous forcing as well as convection if PC2 is switched on.

Convection can have several sweeps per model timestep, this diagnostic
holds the total increment. Available every model physics timestep.
[lbproc=128] - 
m01s05i162SPECIFIC HUMIDITY INCR: convection
Specific humidity increments from convection only in kg/kg per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=128]
+ 
m01s16i162SPECIFIC HUMIDITY INCR: pc2 initiali
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + 
m01s16i182SPECIFIC HUMIDITY INCR: pc2 pressure
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]) / ATMOS_TIMESTEP
 longitude latitude alevel time s-1 cftables ok HadREM-CP4A_mappings.cfg
tnhusscpbl CFmon APmonLev 
(
m01s01i182SPECIFIC HUMIDITY INCR: swrad scheme
This is the increment across the shortwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128] + 
m01s02i182SPECIFIC HUMIDITY INCR: lwrad scheme
This is the increment across the longwave radiation scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128]
+ 
m01s03i182SPECIFIC HUMIDITY INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
specific humidity, in kg of vapour per kg of air.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

WARNING : May change to mass mixing ratio from UM VN5.4.

Available on all timesteps.
[lbproc=128] + 
m01s04i142SPECIFIC HUMIDITY INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + 
m01s04i182SPECIFIC HUMIDITY INCR: ls rain
Vapour increment from the large-scale precipitation scheme and the
balancing cloud scheme call.
This is the gridbox mean change in specific humidity (in kg of vapour
per kg of air) in each gridbox solely as a result of the large-scale
precipitation scheme.
[lbproc=128]
+ 
m01s05i182Q     INCR: convection +(PC2 inhom)
Total increment to specific humidity from the convection section in
kg/kg per model physics time step. This may include increments from
PC2 inhomogeneous forcing as well as convection if PC2 is switched on.

Convection can have several sweeps per model timestep, this diagnostic
holds the total increment. Available every model physics timestep.
[lbproc=128] - 
m01s05i162SPECIFIC HUMIDITY INCR: convection
Specific humidity increments from convection only in kg/kg per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=128] + 
m01s16i162SPECIFIC HUMIDITY INCR: pc2 initiali
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]
+ 
m01s16i182SPECIFIC HUMIDITY INCR: pc2 pressure
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]) / ATMOS_TIMESTEP
commentTo be specified only in models which do not separate budget terms for stratiform cloud, precipitation and boundary layer schemes. Includes all boundary layer terms including and diffusive terms.
 longitude latitude alevel time s-1 cftables ok HadREM-CP4A_mappings.cfg
tnkebto Oyr OPyr 
tnkebto
 longitude latitude time W m-2 ocean embargoed HadREM-CP4A_mappings.cfg
tnpeo Oyr OPyr 
tnpeo
 longitude latitude time W m-2 ocean embargoed HadREM-CP4A_mappings.cfg
tnt CFmon APmonLev 
m01s30i181T TOTAL INCREMENT ON MODEL LEVELS
Total increment to temperature over a model timestep.
Units K/timestep.
[lbproc=128] / ATMOS_TIMESTEP
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tnta CFmon APmonLev 
(
m01s10i181dT SOLVER INC ON MODEL LEVELS
Increment from the Helmholtz solver dT is on model levels on the same grid
as T. The increment is the change in T per timestep.
Units: K/timestep
[lbproc=128] + 
m01s12i181TEMPERATURE INCR: advect K/Timestep
Increments from section 12 (12181-12187)-  Semi-lagrangian advection.

Note the increments from the semi-lagrangain advection include
both the basic advection increment ie the increment to q say purely based on
the start of timestep value and the calculation to determine the new value
at the location, and  a part due to the advection of the sum of the increments
to q (dq) calculated by atmos_phys1. The part due to the advection of the
increments is usually much smaller. All increments have units of change in
the field per timestep.
[lbproc=128]
+ 
m01s12i381TEMP INC DUE TO ADV CORRECTION
Increment to temperature due to corrections to advection scheme
Units K/timestep.
[lbproc=128]) / ATMOS_TIMESTEP
noteObtained by Solver plus Advection plus Conservations Corrections
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntc CFmon APmonLev 
m01s05i161TEMPERATURE       INCR: convection
Temperature increments from convection only in Kelvin per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=128] / ATMOS_TIMESTEP
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntmp CFmon APmonLev 
(
m01s14i181TEMPERATURE INCR: En cor K/Timestep
Temperature increment from the energy correction.

At present the energy correction increment applied to temperature
is the same at all model levels and at all gridpoints. The diagnostic
is avialable at all model levels mainly for checking purposes.
The units are kelvins per model timestep.
[lbproc=128] + m01s01i181[lbproc=128]
+ m01s02i181[lbproc=128] + 
m01s03i181TEMPERATURE       INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
temperature, in K.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

Available on all timesteps.
[lbproc=128] + 
m01s04i141TEMPERATURE INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]
+ 
m01s04i181TEMPERATURE       INCR: ls rain
Temperature increment from the large-scale precipitation scheme
and the balancing cloud scheme call.
This is the gridbox mean change in temperature (in Kelvin) in
each gridbox solely as a result of the large-scale precipitation
scheme.
[lbproc=128] + 
m01s05i181TEMPERATURE INC:convect +(PC2 inhom)
Temperature increment from convection section in Kelvin per model timestep.
This may include increments from PC2 inhomogeneous forcing as well as
convection if PC2 is switched on.

In one model timestep there can be several sweeps of convection. This
diagnostic gives the total increment across convection per model timestep.
[lbproc=128] + 
m01s06i181GW HEATING TEMPERATURE INC
This is the increment to the gridbox mean temperature, in K, due to
the frictional dissipation of parametrized gravity waves and flow blocking drag.
It includes contributions from the orographic and non-orographic gravity wave
schemes. It is only available when the <5A> orographic drag scheme is selected.
Available on all timesteps.
[lbproc=128]
+ 
m01s16i161TEMPERATURE INCR: pc2 initialisation
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + 
m01s16i181TEMPERATURE INCR: pc2 pres change
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + 
m01s35i029T TENDENCY SPT INCREMENT
Increment of temperature done by the SPT, increments from
physics x forcing pattern.
Units: Temperature (K)
[lbproc=128])
/ ATMOS_TIMESTEP
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntpbl Emon APmonLev 
m01s03i189LIQUID WATER TEMP INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
liquid water temperature ( TL = T - [LC/CP]*qCL ), in K.

The boundary layer scheme advects liquid water temperature rather than
temperature and therefore does not produce a direct increment in temperature.
However, see related variable (1, 9, 181) TEMPERATURE INC: bdy layer + ls cld.

Available on all timesteps.
[lbproc=128] / ATMOS_TIMESTEP
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntr CFmon APmonLev 
(
m01s01i161TEMPERATURE INCR: swrad MINUS LH PC2
This is the increment across the shortwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=128] + 
m01s02i161TEMPERATURE       INCR: lwrad - pc2
This is the increment across the longwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=128]) / ATMOS_TIMESTEP
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntrl AERmon AEmonLev 
m01s02i161TEMPERATURE       INCR: lwrad - pc2
This is the increment across the longwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=128] / ATMOS_TIMESTEP
commentLongwave heating rates.
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntrlcs Emon APmonLev 
m01s02i233CLEAR-SKY LW HEATING RATES
The LW radiative heating rates in each layer of the model atmosphere,
calculated ignoring all clouds at all levels at the grid-point from the
divergence of the clear-sky net LW flux across the layer. The value is
claulated only on LW radiative timesteps.
[lbproc=128]
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntrs AERmon AEmonLev 
m01s01i161TEMPERATURE INCR: swrad MINUS LH PC2
This is the increment across the shortwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=128] / ATMOS_TIMESTEP
commentShortwave heating rates.
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntrscs Emon APmonLev 
m01s01i233CLEAR-SKY SW HEATING RATES
The SW radiative heating rates in each layer of the model atmosphere,
calculated ignoring all clouds at all levels at the grid-point from the
divergence of the clear-sky net SW flux across the layer. The value is
claulated only on radiative timesteps and is not adjusted on non-radiative
timesteps, as are the all-sky heating rates. Note that these heating rates
cannot be interpreted as the heating rates in the clear parts of a layer
since the effects of clouds in other layers are ignored.
[lbproc=128]
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntscp Emon APmonLev 
(
m01s03i181TEMPERATURE       INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
temperature, in K.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

Available on all timesteps.
[lbproc=128] - 
m01s03i189LIQUID WATER TEMP INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
liquid water temperature ( TL = T - [LC/CP]*qCL ), in K.

The boundary layer scheme advects liquid water temperature rather than
temperature and therefore does not produce a direct increment in temperature.
However, see related variable (1, 9, 181) TEMPERATURE INC: bdy layer + ls cld.

Available on all timesteps.
[lbproc=128]
+ 
m01s04i141TEMPERATURE INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + 
m01s04i181TEMPERATURE       INCR: ls rain
Temperature increment from the large-scale precipitation scheme
and the balancing cloud scheme call.
This is the gridbox mean change in temperature (in Kelvin) in
each gridbox solely as a result of the large-scale precipitation
scheme.
[lbproc=128] + 
m01s16i161TEMPERATURE INCR: pc2 initialisation
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]
+ 
m01s16i181TEMPERATURE INCR: pc2 pres change
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + m01s01i181[lbproc=128] - 
m01s01i161TEMPERATURE INCR: swrad MINUS LH PC2
This is the increment across the shortwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=128]
+ m01s02i181[lbproc=128] - 
m01s02i161TEMPERATURE       INCR: lwrad - pc2
This is the increment across the longwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=128] + 
m01s05i181TEMPERATURE INC:convect +(PC2 inhom)
Temperature increment from convection section in Kelvin per model timestep.
This may include increments from PC2 inhomogeneous forcing as well as
convection if PC2 is switched on.

In one model timestep there can be several sweeps of convection. This
diagnostic gives the total increment across convection per model timestep.
[lbproc=128]
- 
m01s05i161TEMPERATURE       INCR: convection
Temperature increments from convection only in Kelvin per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=128]) / ATMOS_TIMESTEP
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tntscpbl CFmon APmonLev 
(
m01s03i181TEMPERATURE       INCR: bdy layer
This is the increment across the boundary layer scheme to the gridbox mean
temperature, in K.

Note that if the PC2 condensation scheme is active, the increment will
include a contribution due to condensation effects.

This increment is only available via the PC2 cloud/condensation scheme.

Available on all timesteps.
[lbproc=128] + 
m01s04i141TEMPERATURE INCR: pc2 checks
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]
+ 
m01s04i181TEMPERATURE       INCR: ls rain
Temperature increment from the large-scale precipitation scheme
and the balancing cloud scheme call.
This is the gridbox mean change in temperature (in Kelvin) in
each gridbox solely as a result of the large-scale precipitation
scheme.
[lbproc=128] + 
m01s16i161TEMPERATURE INCR: pc2 initialisation
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128] + 
m01s16i181TEMPERATURE INCR: pc2 pres change
This diagnostic is an increment from the Prognostic Cloud and
Prognostic Condensate (PC2) cloud scheme. More details, including how
to use these diagnostics to construct budgets can be found at:
http://www-nwp/~frme/pc2/post_nov_07/pc2_increments/home.shtml or by
contacting the cloud scheme code owner.
[lbproc=128]
+ m01s01i181[lbproc=128] - 
m01s01i161TEMPERATURE INCR: swrad MINUS LH PC2
This is the increment across the shortwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=128] + m01s02i181[lbproc=128]
- 
m01s02i161TEMPERATURE       INCR: lwrad - pc2
This is the increment across the longwave radiation scheme to the gridbox mean
temperature without the latent heating/condensation effects associated with PC2. In K.

Available on all timesteps.
[lbproc=128] + 
m01s05i181TEMPERATURE INC:convect +(PC2 inhom)
Temperature increment from convection section in Kelvin per model timestep.
This may include increments from PC2 inhomogeneous forcing as well as
convection if PC2 is switched on.

In one model timestep there can be several sweeps of convection. This
diagnostic gives the total increment across convection per model timestep.
[lbproc=128] - 
m01s05i161TEMPERATURE       INCR: convection
Temperature increments from convection only in Kelvin per model timestep.
In one model timestep there can be several sweeps of convection.
This diagnostic gives the total increment from  convection per model timestep.
[lbproc=128])
/ ATMOS_TIMESTEP
commentTo be specified only in models which do not separate budget terms for stratiform cloud, precipitation and boundary layer schemes. Includes all boundary layer terms including and diffusive terms.
 longitude latitude alevel time K s-1 cftables ok HadREM-CP4A_mappings.cfg
tob Omon OPmon 
tob
 longitude latitude time degC ocean ok HadREM-CP4A_mappings.cfg
tos Oday Omon OPmon OPday 
tos
 longitude latitude time degC ocean ok HadREM-CP4A_mappings.cfg
tosga Oday Omon OPmon 
area_mean(tos, areacello)
 time degC ocean ok HadREM-CP4A_mappings.cfg
tossq Oday Omon OPday OPmon 
tossq
 longitude latitude time degC2 ocean ok HadREM-CP4A_mappings.cfg
toz AERmon AEmon 
m01s50i219Ozone column in Dobson Units
Ozone Column from each model level to top of the atmosphere
in Dobson Units
One Dobson unit refers to a layer of gas that would be
0.01 mm thick at standard temperature and pressure.
Valid on all timesteps
[lblev=1, lbproc=128]
 longitude latitude time 1e-5 m chemistry ok HadREM-CP4A_mappings.cfg
tran Eday Lmon LPday LPmon 
m01s03i539TRANSPIRATION GRIDBOX MEAN (kg/m2/s)
contribution to evapotranspiration that is subject to stomatal resistance
calculated from transpiration on tiles.
[lbproc=128]
 longitude latitude time kg m-2 s-1 land ok HadREM-CP4A_mappings.cfg
tropoz AERmon AEmon 
trop_o3col(
m01s34i001O3 MASS MIXING RATIO AFTER TIMESTEP
Ozone Mass Mixing Ratio in kg/kg(Air)
[lbproc=128]
* 
m01s50i063AIR MASS DIAGNOSTIC (WHOLE ATMOS)
Total Air Mass (Whole Atmosphere) : kg
Valid only on chemical timesteps
[lbproc=128] * 
m01s50i062TROPOSPHERIC MASK
Tropospheric Fraction : =1 if grid-cell is in always in the
troposphere, =0 if always in the stratosphere
Valid only on chemical timesteps
[lbproc=128])
 longitude latitude time 1.0e-5 m chemistry ok HadREM-CP4A_mappings.cfg
ts Amon Eday APday APmon 
m01s00i024[lbproc=128]
 longitude latitude time K atmos-physics boundary-layer ok HadREM-CP4A_mappings.cfg
tsl Eday Lmon LPday LPmon mon day 6hr 
m01s08i225DEEP SOIL TEMP. AFTER HYDROLOGY DEGK
Available on land points only.
[lbproc=128]
 longitude latitude sdepth time K land ok HadREM-CP4A_mappings.cfg
tsns Eday APday 
m01s00i024[lbproc=128]
 longitude latitude time K boundary-layer embargoed HadREM-CP4A_mappings.cfg
u2 Emon APmonLev 
m01s30i011[lbproc=128] / 
m01s30i115DRY MASS WEIGHTING MODEL LEV  KG/M2
Included in case anyone wants to know the mass weighting being
applied in the diagnostics 30011 to 30077

Diagnostics 30001 to 30107 fields on model rho grid.
These diagnostics are available primarly for looking at transients etc
on model levels. All fields are on the rho grid points which is not the
model grid for most fields. There are 7 basic fields available;
1 - U
2 - V
3 - w
4 - temperature
5 - specific humidity
6 - height
7 - Ke energy (0.5*(u*u+v*v+w*w))
Plus their mass weighted version 101-107, plus products of fields
mass weighted. At present the mass weighting is the dry mass not the wet
mass of the gridbox. It is not recommended to include all these fields
in every run as they will increase the memory requirement and output
by a large amount. All the mass weighted diagnostic products have been
scaled by 1.e-5 to aviod problems with the numbers getting to be as big
as the missing data value of -32768*32768.

Diagnostics 30422-30439
These diagnostics are column integrals of various fluxes and may be useful
when looking at model budgets. In many cases they are summation of the
fields 30011 to 30077 over all model levels. Unless a vertical profile
of fluxes is required then these diagnostics may be more useful than the
30011-30077 and will take up far less space.
[lbproc=128]
 longitude latitude alevel time 1e5 m2 s-2 atmos-physics ok HadREM-CP4A_mappings.cfg
ua Amon Eday 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
ua10 AERday GCAmon AEday 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
, lbproc=128]
 longitude latitude p10 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
ua100 GCAmon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
0, lbproc=128]
 longitude latitude time p100 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua1000 GCAmon GCday mon day 6hr 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
00, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
commenton UV points
 longitude latitude time p1000 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua100m 6hrPlev AP6hr mon day 1hr 
primavera_make_uva100m(m01s00i002[lbproc=128, lblev=4])
commentThis data is for the model level just above 100m
 longitude latitude height100m time m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua150 GCAmon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P150150.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P150150.0
, lbproc=128]
 longitude latitude time p150 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua150m 6hrPlev AP6hr mon day 1hr 
primavera_make_uva150m(m01s00i002[lbproc=128, lblev=4])
commentThis data is for the model level just above 150m
 longitude latitude height150m time m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua19 APmon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
ua20 GCAmon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
, lbproc=128]
 longitude latitude time p20 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua200 GCAmon GCday 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
commenton UV points
 longitude latitude time p200 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua250 GCAmon GCday mon day 6hr 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P250250.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
commenton UV points
 longitude latitude time p250 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua27 Emon APmon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
 longitude latitude plev27 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
ua30 GCAmon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
, lbproc=128]
 longitude latitude time p30 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua300 GCAmon GCday mon day 6hr 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
commenton UV points
 longitude latitude time p300 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua400 GCAmon GCday mon day 6hr 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P400400.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
commenton UV points
 longitude latitude time p400 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua50 GCAmon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
, lbproc=128]
 longitude latitude time p50 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua500 GCAmon GCday 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
0500.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
commenton UV points
 longitude latitude time p500 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua600 GCAmon GCday mon day 6hr 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P600600.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
commenton UV points
 longitude latitude time p600 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua70 GCAmon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
, lbproc=128]
 longitude latitude time p70 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua700 GCAmon GCday 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
commenton UV points
 longitude latitude time p700 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua7h Emon 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=128]
 longitude latitude plev7h time m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua850 GCAmon GCday 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P850850.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
commenton UV points
 longitude latitude time p850 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
ua925 GCAmon GCday 
m01s30i201U COMPNT OF WIND ON P LEV/UV GRID
Zonal wind on pressure levels. Horizontally regridded to UV-points, i.e.
the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P925925.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
commenton UV points
 longitude latitude time p925 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
uas 6hrPlev E3hr AP6hr APday APmon AP3hr 
m01s03i209[lbproc=128]
commentThis data is written on the Arakawa B grid rather than the C grid as is conventional with UM model output
 longitude latitude height10m time m s-1 boundary-layer ok HadREM-CP4A_mappings.cfg
umo Omon OPmonLev 
mask_copy(umo, mask_3D_U)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg s-1 ocean ok HadREM-CP4A_mappings.cfg
uo Omon OPmonLev 
mask_copy(uo, mask_3D_U)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time m s-1 ocean ok HadREM-CP4A_mappings.cfg
uqint Emon APmon 
m01s30i428[lbproc=128]
commentThe column integral is weighted by the mass of dry air in each grid box, i.e. it is a vertical integral of dry_density * windspeed * moisture. A column-average air density of 1.0 kg m-3 is assumed in converting to units of m2 s-1.
 longitude latitude time m2 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
ut Emon APmonLev 
m01s30i014[lbproc=128] / 
m01s30i115DRY MASS WEIGHTING MODEL LEV  KG/M2
Included in case anyone wants to know the mass weighting being
applied in the diagnostics 30011 to 30077

Diagnostics 30001 to 30107 fields on model rho grid.
These diagnostics are available primarly for looking at transients etc
on model levels. All fields are on the rho grid points which is not the
model grid for most fields. There are 7 basic fields available;
1 - U
2 - V
3 - w
4 - temperature
5 - specific humidity
6 - height
7 - Ke energy (0.5*(u*u+v*v+w*w))
Plus their mass weighted version 101-107, plus products of fields
mass weighted. At present the mass weighting is the dry mass not the wet
mass of the gridbox. It is not recommended to include all these fields
in every run as they will increase the memory requirement and output
by a large amount. All the mass weighted diagnostic products have been
scaled by 1.e-5 to aviod problems with the numbers getting to be as big
as the missing data value of -32768*32768.

Diagnostics 30422-30439
These diagnostics are column integrals of various fluxes and may be useful
when looking at model budgets. In many cases they are summation of the
fields 30011 to 30077 over all model levels. Unless a vertical profile
of fluxes is required then these diagnostics may be more useful than the
30011-30077 and will take up far less space.
[lbproc=128]
 longitude latitude alevel time 1e5 K m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
utendepfd EdayZ EmonZ APmonZ APdayZ 
zonal_apply_heaviside(
m01s30i314DIVERGENCE OF ELIASSEN-PALM FLUX
Divergence of Eliassen-Palm flux. This represents the sole
internal forcing of the mean state by the eddy forcing terms.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192],

m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192])
commentCalled 'acceldivf' in CCMI table; we suggest new name.
 latitude plev39 time m s-2 atmos-physics ok HadREM-CP4A_mappings.cfg
utendnogw Emon APmon 
m01s06i115EAST. FORCE FROM SPECTRAL GW P LEVS
Net eastward acceleration from the spectral (non-orographic)
gravity wave parametrization GW_USSP. These gravity waves have
non-zero phase speeds and are important in the stratosphere and above.
The acceleration is available on pressure levels. Units are ms-2
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time m s-2 atmos-physics embargoed HadREM-CP4A_mappings.cfg
utendogw Emon APmon 
m01s06i247U-ACCEL FROM SATURATED STRESS P LEVS
This is the x-component of the gravity wave drag due to
linear hydrostatic waves exerted on the zonal wind, U.
It is output on pressure levels
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time m s-2 atmos-physics ok HadREM-CP4A_mappings.cfg
uv Emon APmonLev 
m01s30i012[lbproc=128] / 
m01s30i115DRY MASS WEIGHTING MODEL LEV  KG/M2
Included in case anyone wants to know the mass weighting being
applied in the diagnostics 30011 to 30077

Diagnostics 30001 to 30107 fields on model rho grid.
These diagnostics are available primarly for looking at transients etc
on model levels. All fields are on the rho grid points which is not the
model grid for most fields. There are 7 basic fields available;
1 - U
2 - V
3 - w
4 - temperature
5 - specific humidity
6 - height
7 - Ke energy (0.5*(u*u+v*v+w*w))
Plus their mass weighted version 101-107, plus products of fields
mass weighted. At present the mass weighting is the dry mass not the wet
mass of the gridbox. It is not recommended to include all these fields
in every run as they will increase the memory requirement and output
by a large amount. All the mass weighted diagnostic products have been
scaled by 1.e-5 to aviod problems with the numbers getting to be as big
as the missing data value of -32768*32768.

Diagnostics 30422-30439
These diagnostics are column integrals of various fluxes and may be useful
when looking at model budgets. In many cases they are summation of the
fields 30011 to 30077 over all model levels. Unless a vertical profile
of fluxes is required then these diagnostics may be more useful than the
30011-30077 and will take up far less space.
[lbproc=128]
 longitude latitude alevel time 1e5 m2 s-2 atmos-physics ok HadREM-CP4A_mappings.cfg
v2 Emon APmonLev 
m01s30i022[lbproc=128] / 
m01s30i115DRY MASS WEIGHTING MODEL LEV  KG/M2
Included in case anyone wants to know the mass weighting being
applied in the diagnostics 30011 to 30077

Diagnostics 30001 to 30107 fields on model rho grid.
These diagnostics are available primarly for looking at transients etc
on model levels. All fields are on the rho grid points which is not the
model grid for most fields. There are 7 basic fields available;
1 - U
2 - V
3 - w
4 - temperature
5 - specific humidity
6 - height
7 - Ke energy (0.5*(u*u+v*v+w*w))
Plus their mass weighted version 101-107, plus products of fields
mass weighted. At present the mass weighting is the dry mass not the wet
mass of the gridbox. It is not recommended to include all these fields
in every run as they will increase the memory requirement and output
by a large amount. All the mass weighted diagnostic products have been
scaled by 1.e-5 to aviod problems with the numbers getting to be as big
as the missing data value of -32768*32768.

Diagnostics 30422-30439
These diagnostics are column integrals of various fluxes and may be useful
when looking at model budgets. In many cases they are summation of the
fields 30011 to 30077 over all model levels. Unless a vertical profile
of fluxes is required then these diagnostics may be more useful than the
30011-30077 and will take up far less space.
[lbproc=128]
 longitude latitude alevel time 1e5 m2 s-2 atmos-physics ok HadREM-CP4A_mappings.cfg
va Amon Eday 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
va10 GCAmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
, lbproc=128]
 longitude latitude time p10 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va100 GCAmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
0, lbproc=128]
 longitude latitude time p100 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va1000 GCAmon GCday mon day 6hr 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
00, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
commenton UV points
 longitude latitude time p1000 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va100m 6hrPlev AP6hr mon day 1hr 
primavera_make_uva100m(m01s00i003[lbproc=128, lblev=4])
commentThis data is for the model level just above 100m
 longitude latitude height100m time m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va150 GCAmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P150150.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P150150.0
, lbproc=128]
 longitude latitude time p150 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va150m 6hrPlev AP6hr 
primavera_make_uva150m(m01s00i003[lbproc=128, lblev=4])
commentThis data is for the model level just above 150m
 longitude latitude height150m time m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va19 APmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
va20 GCAmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
, lbproc=128]
 longitude latitude time p20 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va200 GCAmon GCday 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
commenton UV points
 longitude latitude time p200 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va250 GCAmon GCday mon day 6hr 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P250250.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
commenton UV points
 longitude latitude time p250 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va27 Emon APmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
 longitude latitude plev27 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
va30 GCAmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
, lbproc=128]
 longitude latitude time p30 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va300 GCAmon GCday mon day 6hr 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
commenton UV points
 longitude latitude time p300 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va400 GCAmon GCday mon day 6hr 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P400400.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
commenton UV points
 longitude latitude time p400 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va50 GCAmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
, lbproc=128]
 longitude latitude time p50 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va500 GCAmon GCday 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
0500.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
commenton UV points
 longitude latitude time p500 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va600 GCAmon GCday mon day 6hr 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P600600.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
commenton UV points
 longitude latitude time p600 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va70 GCAmon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
, lbproc=128]
 longitude latitude time p70 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va700 GCAmon GCday mon day 6hr 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
commenton UV points
 longitude latitude time p700 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va7h Emon 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=128]
/ 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=128]
 longitude latitude plev7h time m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va850 GCAmon GCday 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P850850.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
commenton UV points
 longitude latitude time p850 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
va925 GCAmon GCday 
m01s30i202V COMPNT OF WIND ON P LEV/UV GRID
Meridional wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P925925.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
commenton UV points
 longitude latitude time p925 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
vas 6hrPlev E3hr AP3hr AP6hr APday APmon 
m01s03i210[lbproc=128]
commentThis data is written on the Arakawa B grid rather than the C grid as is conventional with UM model output
 longitude latitude height10m time m s-1 boundary-layer ok HadREM-CP4A_mappings.cfg
vmo Omon OPmonLev 
mask_copy(vmo, mask_3D_V)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg s-1 ocean ok HadREM-CP4A_mappings.cfg
vmrox EmonZ ACmonZ 
(
MOLECULAR_MASS_OF_AIR28.97
 / 
MOLECULAR_MASS_OF_O348.
)
* (
m01s51i997O(1D) MASS MIXING RATIO ON PRESSURE LEVELS
Mass mixing ratio of O(1D) (kg/kg)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
+ 3.0 * 
m01s51i001O3 MASS MIXING RATIO ON PRESS LEVS
Ozone Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
+ 
m01s51i059O3P MASS MIXING RATIO ON PRESS LEVS
Oxygen atom (ground state) Mass Mixing Ratio in kg/kg(Air)
on pressure levels
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192])
/ 
m01s51i999HEAVYSIDE FUNC FOR P LEVEL DIAGS
Must be requested for calculation sections 34
and 50 items on pressure levels.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192]
commentIncludes O(3P),O3 and O(1D)- reported as moles of O/ moles of air.
 latitude plev39 time mol mol-1 chemistry ok HadREM-CP4A_mappings.cfg
vo Omon OPmonLev 
mask_copy(vo, mask_3D_V)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time m s-1 ocean ok HadREM-CP4A_mappings.cfg
volcello Omon OPmonLev 
volcello(thkcello, areacello)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time m3 ocean ok HadREM-CP4A_mappings.cfg
volo Omon OPmon 
scvoltot
 time m3 ocean ok HadREM-CP4A_mappings.cfg
vortmean 6hrPlevPt AP6hrPt 
vortmean(
m01s30i457VORTICITY TC
Vorticity TC
 1/s

 Rel. vorticity for user requested levels

 Rel. Vorticity for requested levels to
 identify the warm core of the TC (see UMDP 032)
[blev=600 700 850, lbproc=0])
 longitude latitude pl700 time1 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
vqint Emon APmon 
m01s30i429[lbproc=128]
commentThe column integral is weighted by the mass of dry air in each grid box, i.e. it is a vertical integral of dry_density * windspeed * moisture. A column-average air density of 1.0 kg m-3 is assumed in converting to units of m2 s-1.
 longitude latitude time m2 s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
vt Emon APmonLev 
m01s30i024[lbproc=128] / 
m01s30i115DRY MASS WEIGHTING MODEL LEV  KG/M2
Included in case anyone wants to know the mass weighting being
applied in the diagnostics 30011 to 30077

Diagnostics 30001 to 30107 fields on model rho grid.
These diagnostics are available primarly for looking at transients etc
on model levels. All fields are on the rho grid points which is not the
model grid for most fields. There are 7 basic fields available;
1 - U
2 - V
3 - w
4 - temperature
5 - specific humidity
6 - height
7 - Ke energy (0.5*(u*u+v*v+w*w))
Plus their mass weighted version 101-107, plus products of fields
mass weighted. At present the mass weighting is the dry mass not the wet
mass of the gridbox. It is not recommended to include all these fields
in every run as they will increase the memory requirement and output
by a large amount. All the mass weighted diagnostic products have been
scaled by 1.e-5 to aviod problems with the numbers getting to be as big
as the missing data value of -32768*32768.

Diagnostics 30422-30439
These diagnostics are column integrals of various fluxes and may be useful
when looking at model budgets. In many cases they are summation of the
fields 30011 to 30077 over all model levels. Unless a vertical profile
of fluxes is required then these diagnostics may be more useful than the
30011-30077 and will take up far less space.
[lbproc=128]
 longitude latitude alevel time 1e5 K m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
vtem EdayZ EmonZ APmonZ APdayZ 
mask_vtem(
m01s30i310RESIDUAL MN MERID. CIRC. VSTARBAR
Residual mean meridional circulation. Used as the eddy part in
the transformed Eulerian mean sets of equations to anticipate how the
zonal-mean flow will respond to an eddy momentum flux or eddy heat
flux. Defined in such a way that dw*/dz + dv*/dy = 0.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192],

m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192])
commentAll data at and below 700 hPa have been masked.
 latitude plev39 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
wa AERmon AEmonLev 
m01s00i150[lbproc=128]
 longitude latitude alevel time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
wa10 GCAmon mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
, lbproc=128]
 longitude latitude time p10 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa100 GCAmon mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
0, lbproc=128]
 longitude latitude time p100 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa1000 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P1010.0
00, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
commenton UV points
 longitude latitude time p1000 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa150 GCAmon mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P150150.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P150150.0
, lbproc=128]
 longitude latitude time p150 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa20 GCAmon mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
, lbproc=128]
 longitude latitude time p20 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa200 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
commenton UV points
 longitude latitude time p200 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa250 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P250250.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
commenton UV points
 longitude latitude time p250 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa30 GCAmon mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
, lbproc=128]
 longitude latitude time p30 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa300 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P3030.0
0, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
commenton UV points
 longitude latitude time p300 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa400 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P400400.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
commenton UV points
 longitude latitude time p400 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa50 GCAmon mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
, lbproc=128]
 longitude latitude time p50 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa500 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P5050.0
0500.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
commenton UV points
 longitude latitude time p500 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa600 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P600600.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
commenton UV points
 longitude latitude time p600 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa70 GCAmon mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
, lbproc=128]
 longitude latitude time p70 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa700 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
commenton UV points
 longitude latitude time p700 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa750 mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P750750.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P750750.0
, lbproc=128]
 longitude latitude time p750 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa850 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P850850.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
commenton UV points
 longitude latitude time p850 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wa925 GCAmon GCday mon day 6hr 
m01s30i203W COMPNT OF WIND ON P LEV/UV GRID
Vertical wind on pressure levels. Horizontally regridded to UV-points,
i.e. the corners of T-point grid cells. Set to zero when pressure level is
below ground or above model top: must be divided by heavyside function
(30301) to obtain correct mean.
Units are m s^-1
[blev=
P925925.0
, lbproc=128] / 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
commenton UV points
 longitude latitude time p925 m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap Amon Eday APmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time Pa s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
wap10 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P1010.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
, lbproc=128]
 longitude latitude time p10 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap100 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P1010.0
0, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
0, lbproc=128]
 longitude latitude time p100 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap1000 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P1010.0
00, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
 longitude latitude time p1000 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap150 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P150150.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P150150.0
, lbproc=128]
 longitude latitude time p150 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap20 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P2020.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
, lbproc=128]
 longitude latitude time p20 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap200 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P2020.0
0200.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
 longitude latitude time p200 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap250 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P250250.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
 longitude latitude time p250 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap30 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P3030.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
, lbproc=128]
 longitude latitude time p30 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap300 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P3030.0
0, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
 longitude latitude time p300 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap4 6hrPlev AP6hr 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
PLEV4925.0 850.0 500.0 250.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV4925.0 850.0 500.0 250.0
, lbproc=128]
 longitude latitude plev4 time Pa s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
wap400 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P400400.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
 longitude latitude time p400 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap50 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P5050.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
, lbproc=128]
 longitude latitude time p50 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap500 CFday GCAmon APday 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P5050.0
0500.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
 longitude latitude p500 time Pa s-1 cftables ok HadREM-CP4A_mappings.cfg
wap600 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P600600.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
 longitude latitude time p600 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap70 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P7070.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
, lbproc=128]
 longitude latitude time p70 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap700 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
 longitude latitude time p700 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap7h E3hrPt AP3hrPt 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 Pa s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
wap850 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P850850.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
 longitude latitude time p850 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wap925 GCAmon 
m01s30i298OMEGA ON P LEV/T GRID
Omega on pressure levels. At T-points in the horizontal. Set to
zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are Pa s-1
[blev=
P925925.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
 longitude latitude time p925 Pa s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
waterDpth Emon 
m01s08i249[lbproc=128]
 longitude latitude time m land embargoed HadREM-CP4A_mappings.cfg
wbptemp7h 6hrPlevPt AP6hrPt 
m01s16i205[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0] /

m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 K atmos-physics embargoed HadREM-CP4A_mappings.cfg
wetdust AERmon CresAERday AEmon 
m01s04i231Dust wet dep flux ls precip  div 1
Flux of mineral dust (division 1) deposited to ground due to large scale
precipitation. (kg m-2 s-1)
[lbproc=128] + 
m01s04i232Dust wet dep flux ls precip  div 2
Flux of mineral dust (division 2) deposited to ground due to large scale
precipitation. (kg m-2 s-1)
[lbproc=128]
+ 
m01s04i233Dust wet dep flux ls precip  div 3
Flux of mineral dust (division 3) deposited to ground due to large scale
precipitation. (kg m-2 s-1)
[lbproc=128] + 
m01s04i234Dust wet dep flux ls precip  div 4
Flux of mineral dust (division 4) deposited to ground due to large scale
precipitation. (kg m-2 s-1)
[lbproc=128] + 
m01s04i235Dust wet dep flux ls precip  div 5
Flux of mineral dust (division 5) deposited to ground due to large scale
precipitation. (kg m-2 s-1)
[lbproc=128]
+ 
m01s04i236Dust wet dep flux ls precip  div 6
Flux of mineral dust (division 6) deposited to ground due to large scale
precipitation. (kg m-2 s-1)
[lbproc=128] + 
m01s05i281Dust wet dep flux conv precip div 1
Flux of mineral dust (division 1) deposited to ground due to convective
precipitation. (kg m-2 s-1)
[lbproc=128] + 
m01s05i282Dust wet dep flux conv precip div 2
Flux of mineral dust (division 2) deposited to ground due to convective
precipitation. (kg m-2 s-1)
[lbproc=128]
+ 
m01s05i283Dust wet dep flux conv precip div 3
Flux of mineral dust (division 3) deposited to ground due to convective
precipitation. (kg m-2 s-1)
[lbproc=128] + 
m01s05i284Dust wet dep flux conv precip div 4
Flux of mineral dust (division 4) deposited to ground due to convective
precipitation. (kg m-2 s-1)
[lbproc=128] + 
m01s05i285Dust wet dep flux conv precip div 5
Flux of mineral dust (division 5) deposited to ground due to convective
precipitation. (kg m-2 s-1)
[lbproc=128]
+ 
m01s05i286Dust wet dep flux conv precip div 6
Flux of mineral dust (division 6) deposited to ground due to convective
precipitation. (kg m-2 s-1)
[lbproc=128]
 longitude latitude time kg m-2 s-1 dust ok HadREM-CP4A_mappings.cfg
wetlandCH4 Emon LPmon 
m01s08i242CH4 WETLAND FLUX(FOR UKCA) UG C/M2/S
The methane flux from wetland to be used in UKCA.
 (This will be one of the following diagnostics: 8260-8262). Units are 1x10-6 grams Carbon/m2/second.
Available on land points only.
[lbproc=128] * 
MOLECULAR_MASS_OF_CH416.
 / 
ATOMIC_MASS_OF_C12.
 longitude latitude time ug m-2 s-1 carbon ok HadREM-CP4A_mappings.cfg
wetlandFrac Emon LPmon 
m01s08i248[lbproc=128] * 
m01s03i395FRACTION OF LAND
This item is the fraction of land in the gridbox.
[lbproc=128]
 longitude latitude typewetla time 1 carbon ok HadREM-CP4A_mappings.cfg
wfo Omon OPmon 
-1 * (sowaflup + sowflisf)
 longitude latitude time kg m-2 s-1 ocean ok HadREM-CP4A_mappings.cfg
wmo Omon OPmonLev 
mask_copy(wmo, mask_3D_T)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time kg s-1 ocean ok HadREM-CP4A_mappings.cfg
wo Omon OPmonLev 
mask_copy(wo, mask_3D_T)
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time m s-1 ocean ok HadREM-CP4A_mappings.cfg
wsgmax10m 6hrPlev AP6hr 
m01s03i463WIND GUST (M/S)
Maximum gust windspeed at 10m. Single level available every timestep.
[lbproc=8192]
 longitude latitude height10m time m s-1 atmos-physics embargoed HadREM-CP4A_mappings.cfg
wtd Eday Emon LPday LPmon 
m01s08i249[lbproc=128]
 longitude latitude time m land ok HadREM-CP4A_mappings.cfg
wtem EdayZ EmonZ APdayZ APmonZ 
mask_polar_column_zonal_means(

m01s30i311RESIDUAL MN MERID. CIRC. WSTARBAR
Residual mean meridional circulation. Used as the eddy part in
the transformed Eulerian mean sets of equations to anticipate how the
zonal-mean flow will respond to an eddy momentum flux or eddy heat
flux. Defined in such a way that dw*/dz + dv*/dy = 0.
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192], 
m01s30i301HEAVYSIDE FN ON P LEV/UV GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30201-30288. Valid on
pressure levels and at UV-points in the horizontal, i.e. the corners of
T-point grid cells.
Dimensionless (range 0-1).
[blev=
PLEV3850.0 500.0 250.0
9, lbproc=192])
 latitude plev39 time m s-1 atmos-physics ok HadREM-CP4A_mappings.cfg
zfull CF3hr AP3hrPtLev 
m01s15i101[lbproc=0]
 longitude latitude alevel time1 m cftables embargoed HadREM-CP4A_mappings.cfg
zfullo Omon OPmonLev 
zfull
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevel time m ocean ok HadREM-CP4A_mappings.cfg
zg Amon Eday APmon 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV191000.0 925.0 850.0 700.0 600.0 500.0 400.0 300.0 250.0 200.0 150.0 100.0 70.0 50.0 30.0 20.0 10.0 5.0 1.0
, lbproc=128]
 longitude latitude plev19 time m atmos-physics ok HadREM-CP4A_mappings.cfg
zg10 AERday AEday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P1010.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
, lbproc=128]
 longitude latitude p10 time m atmos-physics ok HadREM-CP4A_mappings.cfg
zg100 AERday AEday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P1010.0
0, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
0, lbproc=128]
 longitude latitude p100 time m atmos-physics ok HadREM-CP4A_mappings.cfg
zg1000 GCAmon GCday 6hrPlev AERday AP6hr APday mon day 6hr 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P1010.0
00, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P1010.0
00, lbproc=128]
 longitude latitude p1000 time m atmos-physics ok HadREM-CP4A_mappings.cfg
zg200 GCAmon GCday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P2020.0
0200.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P2020.0
0200.0
, lbproc=128]
 longitude latitude p200 time m atmos-physics embargoed HadREM-CP4A_mappings.cfg
zg250 GCAmon GCday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P250250.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P250250.0
, lbproc=128]
 longitude latitude time p250 m atmos-physics embargoed HadREM-CP4A_mappings.cfg
zg27 Emon APmon 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV271000.0 975.0 950.0 925.0 900.0 875.0 850.0 825.0 800.0 775.0 750.0 700.0 650.0 600.0 550.0 500.0 450.0 400.0 350.0 300.0 250.0 225.0 200.0 175.0 150.0 125.0 100.0
, lbproc=128]
 longitude latitude plev27 time m atmos-physics ok HadREM-CP4A_mappings.cfg
zg300 GCAmon GCday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P3030.0
0, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P3030.0
0, lbproc=128]
 longitude latitude p300 time m atmos-physics embargoed HadREM-CP4A_mappings.cfg
zg400 GCAmon GCday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P400400.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P400400.0
, lbproc=128]
 longitude latitude p400 time m atmos-physics embargoed HadREM-CP4A_mappings.cfg
zg500 AERday GCAmon GCday AEday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P5050.0
0500.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P5050.0
0500.0
, lbproc=128]
 longitude latitude p500 time m atmos-physics ok HadREM-CP4A_mappings.cfg
zg600 GCAmon GCday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P600600.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P600600.0
, lbproc=128]
 longitude latitude p600 time m atmos-physics embargoed HadREM-CP4A_mappings.cfg
zg700 GCAmon GCday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P7070.0
0700.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P7070.0
0700.0
, lbproc=128]
 longitude latitude time p700 m atmos-physics embargoed HadREM-CP4A_mappings.cfg
zg7h 6hrPlevPt Prim3hrPt AP6hrPt 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
PLEV7H925.0 850.0 700.0 600.0 500.0 250.0 50.0
, lbproc=0]
 longitude latitude plev7h time1 m atmos-physics ok HadREM-CP4A_mappings.cfg
zg850 GCAmon GCday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P850850.0
, lbproc=128] / 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P850850.0
, lbproc=128]
 longitude latitude time p850 m atmos-physics embargoed HadREM-CP4A_mappings.cfg
zg925 GCAmon GCday 
m01s30i297GEOPOTENTIAL HEIGHT ON P LEV/T GRID
Geopotential height on pressure levels. At T-points in the horizontal.
Set to zero when pressure level is below ground or above model top: must be
divided by heavyside function (30304) to obtain correct mean.
Units are m
[blev=
P925925.0
, lbproc=128]
/ 
m01s30i304HEAVYSIDE FN ON P LEV/T GRID
Fraction of time pressure level has been above ground and below the model
top. Is required to normalise pressure-level fields 30293-30298. Valid on
pressure levels and at T-points in the horizontal.
Dimensionless (range 0-1).
[blev=
P925925.0
, lbproc=128]
 longitude latitude p925 time m atmos-physics embargoed HadREM-CP4A_mappings.cfg
zhalf CF3hr AP3hrPtLev 
m01s15i102[lbproc=0]
 longitude latitude alevhalf time1 m cftables embargoed HadREM-CP4A_mappings.cfg
zhalfo Omon OPmonLev 
zhalf
commentThis variable is reported using a z* coordinate system rather than the z-level system indicated by the metadata. Where this is important to analysis please consider the information in time-varying variables thkcello or zfullo.
 longitude latitude olevhalf time m ocean ok HadREM-CP4A_mappings.cfg
zmla GCAmon Eday APday 
m01s03i304TURBULENT MIXING HT AFTER B.LAYER m
Maximum height of turbulent mixing. This will be the same as STASH item
(1, 3, 025) for stable layers (see STASH item (1, 3, 305)), well-mixed
boundary  layers (see STASH item (1, 3, 307)) and for cumulus layers (see
STASH item (1, 3, 310)), with both marking the lifting condensation level
in the latter case. For decoupled boundary layers (see STASH items (1, 3,
306),(1, 3, 308) and (1, 3, 309)), this will mark the top of the
decoupled layer.

Available on all timesteps.
[lbproc=128]
 longitude latitude time m boundary-layer ok HadREM-CP4A_mappings.cfg
zos Omon OPmon 
zos
 longitude latitude time m ocean ok HadREM-CP4A_mappings.cfg
zossq Omon OPmon 
zossq
 longitude latitude time m2 ocean ok HadREM-CP4A_mappings.cfg
zostoga Omon OPmon 
calc_zostoga(thetao, thkcello, areacello,
zfullo_0, so_0, rho_0_mean, deptho_0_mean)
commentCalculated using the first annual mean of the corresponding piControl experiment as the reference state.
 time m ocean ok HadREM-CP4A_mappings.cfg
ztp AERmon AEmon 
m01s30i453[lbproc=128] + m01s00i033[lbproc=128]
 longitude latitude time m atmos-physics ok HadREM-CP4A_mappings.cfg