6.19. ancillaries.nml
¶
This file sets up spatially varying ancillary values. It contains the following namelists: JULES_FRAC
, JULES_VEGETATION_PROPS
, JULES_SOIL_PROPS
, JULES_TOP
, JULES_PDM
, JULES_AGRIC
, JULES_CROP_PROPS
, JULES_IRRIG
, JULES_RIVERS_PROPS
, JULES_OVERBANK_PROPS
, URBAN_PROPERTIES
and JULES_CO2
.
Data associated with each of these namelists can optionally be read from the dump file (if present) by setting read_from_dump
to true. This functionality provides closer alignment with UM functionality and can help ensure that the correct ancillary data remain associated with the model state.
6.19.1. JULES_FRAC
namelist members¶
This namelist specifies the fraction of the land area in each gridbox that is covered by each of the surface types. If l_veg_compete
= TRUE, then the fraction of each surface type is modelled and the initial state should be specified in JULES_INITIAL
. In all other cases, it must be read here.
Note that all land points must be either soil points (indicated by values > 0 of the saturated soil moisture content), or land ice points (indicated by the fractional coverage of the ice surface type - if used - being one). The fractional cover of the ice surface type in each gridbox must be either zero or one - there cannot be partial coverage of ice within a gridbox.
If using either URBAN-2T or MORUSES then the total urban fraction can be specified instead of the separate urban_canyon
and urban_roof
contributions. When initialising, if the roof fraction is zero, the canyon fraction will be interpreted as the total urban fraction and be partitioned according to canyon fraction (W/R, see URBAN_PROPERTIES
).
-
JULES_FRAC::
read_from_dump
¶ Type: logical Default: F - TRUE
- Populate variables associated with this namelist from the dump file. All other namelist members are ignored.
- FALSE
- Use the other namelist members to determine how to populate variables.
-
JULES_FRAC::
file
¶ Type: character Default: None The name of the file to read surface type fractional coverage data from.
-
JULES_FRAC::
frac_name
¶ Type: character Default: ‘frac’ The name of the variable containing the surface type fractional coverage data.
Note
This is only used for NetCDF files. For ASCII files, the surface type fractional coverage data is expected to be the first (ideally only) variable in the file.
Note
The open water fraction of this array (given by
lake
) should contain permanent water, and wetland extents that are not being otherwise simulated. If groundwater inundation is being simulated (i.e. TOPMODEL is activel_top
= TRUE and therefore fsat is being calculated) then all groundwater-maintained wetlands must be excluded fromfrac_name
. If overbank inundation is being simulated (i.e.l_riv_overbank
= TRUE) then all fluvial wetlands must be excluded fromfrac_name
. Finally, note that simulation of a potential future climate scenario with greatly reduced areas for lakes that are currently ‘permanent’ would require suitable modification of the ancillary provided here.In the file, the variable must have a single levels dimension of size
ntype
calledtype_dim_name
, and should not have a time dimension.
6.19.2. JULES_VEGETATION_PROPS
namelist members¶
This namelist specifies how spatially-varying properties of vegetation should be set.
At present only one variable - t_growth_gb
- can be specified via this namelist, and this is only required if thermal adaptation of photosynthetic capacity is selected (photo_acclim_model
= 1).
Note that Leaf Area Index and vegetation height are specified elsewhere - see JULES_PRESCRIBED
.
-
JULES_VEGETATION_PROPS::
read_from_dump
¶ Type: logical Default: F - TRUE
- Populate variables associated with this namelist from the dump file. All other namelist members are ignored.
- FALSE
- Use the other namelist members to determine how to populate variables.
-
JULES_VEGETATION_PROPS::
file
¶ Type: character Default: None The file to read vegetation properties from.
If
use_file
is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
JULES_VEGETATION_PROPS::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of vegetation property variables that will be provided (see List of vegetation parameters).
-
JULES_VEGETATION_PROPS::
var
¶ Type: character(nvars) Default: None List of vegetation variable names as recognised by JULES (see List of vegetation parameters). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
JULES_VEGETATION_PROPS::
use_file
¶ Type: logical(nvars) Default: T For each JULES variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
JULES_VEGETATION_PROPS::
var_name
¶ Type: character(nvars) Default: ‘’ (empty string) For each JULES variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.If the empty string (the default) is given for any variable, then the corresponding value from
var
is used instead.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given in that case.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
JULES_VEGETATION_PROPS::
tpl_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
, this is the string to substitute into the file name in place of the variable name substitution string.If the file name does not use variable name templating, this is not used.
-
JULES_VEGETATION_PROPS::
const_val
¶ Type: real(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point.This is not used for variables where
use_file
= TRUE, but a placeholder must still be given in that case.
6.19.2.1. List of vegetation parameters¶
Name | Description |
---|---|
t_growth_gb |
Average temperature (growth temperature) for thermal adaptation of photosynthetic capacity (degrees Celsius), e.g. a multi-decadal average or pre-industrial temperature. Suggestions as to how to calculate a suitable temperature can be found in Kattge and Knorr (2007). This variable should not have a time dimension nor any “levels” dimension. |
6.19.3. JULES_SOIL_PROPS
namelist members¶
This namelist specifies how spatially varying soil properties should be set.
-
JULES_SOIL_PROPS::
read_from_dump
¶ Type: logical Default: F - TRUE
- Populate variables associated with this namelist from the dump file. All other namelist members are ignored.
- FALSE
- Use the other namelist members to determine how to populate variables.
-
JULES_SOIL_PROPS::
const_z
¶ Type: logical Default: F Switch indicating if soil properties are to be uniform with depth.
- TRUE
- Soil characteristics do not vary with depth.
- FALSE
- Soil characteristics vary with depth.
-
JULES_SOIL_PROPS::
file
¶ Type: character Default: None The file to read soil properties from.
If
use_file
is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
JULES_SOIL_PROPS::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of soil property variables that will be provided (see List of soil parameters).
-
JULES_SOIL_PROPS::
var
¶ Type: character(nvars) Default: None List of soil variable names as recognised by JULES (see List of soil parameters). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
JULES_SOIL_PROPS::
use_file
¶ Type: logical(nvars) Default: T For each JULES variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
JULES_SOIL_PROPS::
var_name
¶ Type: character(nvars) Default: ‘’ (empty string) For each JULES variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.If the empty string (the default) is given for any variable, then the corresponding value from
var
is used instead.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given in that case.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
JULES_SOIL_PROPS::
tpl_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
, this is the string to substitute into the file name in place of the variable name substitution string.If the file name does not use variable name templating, this is not used.
-
JULES_SOIL_PROPS::
const_val
¶ Type: real(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point in every layer.This is not used for variables where
use_file
= TRUE, but a placeholder must still be given in that case.
6.19.3.1. List of soil parameters¶
If const_z
= FALSE, variables read from file must have a single levels dimension. For most variables this dimension must be of size sm_levels
and called soil_dim_name
; exceptions to this rule are indicated in the table below.
If const_z
= TRUE, variables read from file must have no levels dimensions.
In all cases, the variables must have no time dimension.
Name | Description | Levels name |
---|---|---|
albsoil |
Soil albedo. A single (averaged) waveband is used. | None |
b |
Exponent in soil hydraulic characteristics. | soil_dim_name |
hcap |
Dry heat capacity (J m-3 K-1). | soil_dim_name |
hcon |
Dry thermal conductivity (W m-1 K-1). | soil_dim_name |
satcon |
Hydraulic conductivity at saturation (kg m-2 s-1). | soil_dim_name |
sathh |
If If |
soil_dim_name |
sm_crit |
Volumetric soil moisture content at the critical point (m3 water per
m3 soil). If
|
soil_dim_name |
sm_sat |
Volumetric soil moisture content at saturation (m3 water per m3 soil). Note This field is used to distinguish between soil points and land ice points.
|
soil_dim_name |
sm_wilt |
Volumetric soil moisture content at the wilting point (m3 water
per m3 soil). If
|
soil_dim_name |
clay |
Soil clay content (g clay per g soil). Only required for the RothC and ECOSSE soil
carbon models ( Note To allow backwards compatibility when using the RothC model
( However, this is wrong - if it is not available it should be set to 0.23. |
sclayer_dim_name |
soil_ph |
Soil pH. Only required for the ECOSSE soil carbon model
(soil_bgc_model = 3). |
sclayer_dim_name |
6.19.4. JULES_TOP
namelist members¶
This namelist reads spatially varying parameter values for the TOPMODEL-type parameterisation of runoff. The values are only used if l_top
= TRUE. The description below is very brief. For further details, see the references under l_top
.
-
JULES_TOP::
read_from_dump
¶ Type: logical Default: F - TRUE
- Populate variables associated with this namelist from the dump file. All other namelist members are ignored.
- FALSE
- Use the other namelist members to determine how to populate variables.
-
JULES_TOP::
file
¶ Type: character Default: None The file to read TOPMODEL properties from.
If
use_file
is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
JULES_TOP::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of TOPMODEL property variables that will be provided. At present, all variables are required for runs using TOPMODEL (see List of TOPMODEL parameters).
-
JULES_TOP::
var
¶ Type: character(nvars) Default: None List of TOPMODEL variable names as recognised by JULES (see List of TOPMODEL parameters). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
JULES_TOP::
use_file
¶ Type: logical(nvars) Default: T For each JULES variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
JULES_TOP::
var_name
¶ Type: character(nvars) Default: ‘’ (empty string) For each JULES variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.If the empty string (the default) is given for any variable, then the corresponding value from
var
is used instead.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given in that case.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
JULES_TOP::
tpl_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
, this is the string to substitute into the file name in place of the variable name substitution string.If the file name does not use variable name templating, this is not used.
-
JULES_TOP::
const_val
¶ Type: real(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point in every layer.This is not used for variables where
use_file
= TRUE, but a placeholder must still be given in that case.
6.19.4.1. List of TOPMODEL parameters¶
All of the TOPMODEL variables listed below are expected to have no levels dimensions and no time dimension.
Name | Description |
---|---|
fexp |
Decay factor describing how the saturated hydraulic conductivity decreases with depth below the standard soil column (m-1). Routinely set between 1 and 3 m-1. Gedney & Cox (2003, J Hydromet) used value 0.5 m-1; Niu & Yang (2003, Global & Planet. Change) suggested a global mean value of 2.0 m-1. |
ti_mean |
(Spatial, not temporal) mean value of the topographic index in each gridbox. Value 5.99 is the global mean given in Marthews et al. (2015, HESS) |
ti_sig |
(Spatial, not temporal) standard deviation of the topographic index in each gridbox. Values <0.5 are updated to =0.5 internally to allow at least some variability |
6.19.5. JULES_PDM
namelist members¶
This namelist reads spatially varying parameter values for the PDM-type parameterisation of runoff. The values are only used if l_pdm
= TRUE. The description below is very brief. For further details, see the references under l_pdm
.
-
JULES_PDM::
file
¶ Type: character Default: None The file to read PDM properties from.
If
use_file
is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
JULES_PDM::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of PDM property variables that will be provided (see List of PDM parameters). At present, only the topographic slope can be provided.
-
JULES_PDM::
var
¶ Type: character(nvars) Default: None List of PDM variable names as recognised by JULES (see List of PDM parameters). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
JULES_PDM::
use_file
¶ Type: logical(nvars) Default: T For each JULES variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
JULES_PDM::
var_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
JULES_PDM::
tpl_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
, this is the string to substitute into the file name in place of the variable name substitution string.If the file name does not use variable name templating, this is not used.
-
JULES_PDM::
const_val
¶ Type: real(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point in every layer. make html This is not used for variables whereuse_file
= TRUE, but a placeholder must still be given.
6.19.5.1. List of PDM parameters¶
All of the PDM variables listed below are expected to have no levels dimensions and no time dimension.
Name | Description |
---|---|
slope |
Mean value of the topographic slope in the gridbox (deg). |
6.19.6. JULES_AGRIC
namelist members¶
If the TRIFFID vegetation model is used, the fractional area of agricultural land in each gridbox is specified using this namelist. Otherwise, the values in this namelist are not used.
-
JULES_AGRIC::
read_from_dump
¶ Type: logical Default: F - TRUE
- Populate variables associated with this namelist from the dump file. All other namelist members are ignored.
- FALSE
- Use the other namelist members to determine how to populate variables.
-
JULES_AGRIC::
zero_agric
¶ Type: logical Default: T Switch used to simplify the initialisation of agricultural fraction.
- TRUE
- Set agricultural fraction at all points to zero.
- FALSE
- Set agricultural fraction using specified data.
Used if zero_agric
= FALSE and the input grid consists of a single location
-
JULES_AGRIC::
frac_agr
¶ Type: real Default: None The agricultural fraction for the single location.
Used if zero_agric
= FALSE and the input grid consists of more than one location
-
JULES_AGRIC::
file
¶ Type: character Default: None The name of the file to read agricultural fraction data from.
-
JULES_AGRIC::
agric_name
¶ Type: character Default: ‘frac_agr’ The name of the variable containing the agricultural fraction data.
In the file, the variable must have no levels dimensions and no time dimension.
-
JULES_AGRIC::
zero_past
¶ Type: logical Default: T Switch used to simplify the initialisation of pasture fraction. Pasture fraction can only be used if
l_trif_crop
is TRUE.- TRUE
- Set pasture fraction at all points to zero.
- FALSE
- Set pasture fraction using specified data.
Used if zero_past
= FALSE and the input grid consists of a single location
-
JULES_AGRIC::
frac_past
¶ Type: real Default: None The pasture fraction for the single location.
Used if zero_past
= FALSE and the input grid consists of more than one location
-
JULES_AGRIC::
file_past
¶ Type: character Default: None The name of the file to read pasture fraction data from.
-
JULES_AGRIC::
pasture_name
¶ Type: character Default: ‘frac_past’ The name of the variable containing the pasture fraction data.
In the file, the variable must have no levels dimensions and no time dimension.
6.19.7. JULES_CROP_PROPS
namelist members¶
-
JULES_CROP_PROPS::
read_from_dump
¶ Type: logical Default: F - TRUE
- Populate variables associated with this namelist from the dump file. All other namelist members are ignored.
- FALSE
- Use the other namelist members to determine how to populate variables.
-
JULES_CROP_PROPS::
file
¶ Type: character Default: None The file from which crop properties are read.
If
use_file
is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
JULES_CROP_PROPS::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of crop property variables that will be provided (see List of spatially-varying crop properties).
-
JULES_CROP_PROPS::
var
¶ Type: character(nvars) Default: None List of variable names for spatially-varying crop properties as recognised by JULES (see List of spatially-varying crop properties). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
JULES_CROP_PROPS::
use_file
¶ Type: logical(nvars) Default: T For each JULES variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
JULES_CROP_PROPS::
var_name
¶ Type: character(nvars) Default: ‘’ (empty string) For each JULES variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.If the empty string (the default) is given for any variable, then the corresponding value from
var
is used instead.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given in that case.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
JULES_CROP_PROPS::
tpl_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
, this is the string to substitute into the file name in place of the variable name substitution string.If the file name does not use variable name templating, this is not used.
-
JULES_CROP_PROPS::
const_val
¶ Type: real(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point in every layer.This is not used for variables where
use_file
= TRUE, but a placeholder must still be given in that case.
6.19.7.1. List of spatially-varying crop properties¶
All of the crop variables listed below are expected to have a single levels dimension of size ncpft
called cpft_dim_name
.
Name | Description |
---|---|
cropsowdate |
The sowing date for each crop. The sowing date should be a real number, with If a crop requires two sowing dates per year, it should be treated as two separate crops with identical parameters apart from the sowing date. Note Only required if |
cropttveg |
Thermal time between emergence and flowering (degree days). |
cropttrep |
Thermal time between flowering and maturity/harvest (degree days). |
croplatestharvdate |
The latest possible harvest date for each crop.
croplatestharvdate is only a required variable when
croplatestharvdate is not a required variable when
croplatestharvdate is not a required variable and is only used if provided as an ancillary when
|
See also
References:
- Osborne et al, JULES-crop: a parametrisation of crops in the Joint UK Land Environment Simulator, Geosci. Model Dev., 8, 1139-1155, 2015.
- Mathison et al, ‘Developing a sequential cropping capability in the JULESvn5.2 land–surface model’, Geosci. Model Dev. Discuss., https://doi.org/10.5194/gmd-2019-85, in review, 2019
6.19.8. JULES_IRRIG
namelist members¶
This namelist specifies the different options available for setting up the irrigation.
Note
- Irrigation can be applied at a constant rate in three ways:
- To apply a constant irrigation to all tiles the irrigation settings are as follows: frac_irrig_all_tiles=T, set_irrfrac_on_irrtiles=F and set a value for const_irr_frac in this namelist.
- To apply a constant irrigation to only specific tiles the irrigation settings are as follows: frac_irrig_all_tiles=F and set_irrfrac_on_irrtiles=T and set a value for const_irrfrac_irrtiles in this namelist.
- To apply a constant irrigation to specific tiles as an average across the gridbox, which is the way irrigation on specific tiles was done prior to vn5.7, the irrigation settings are as follows:frac_irrig_all_tiles=F, set_irrfrac_on_irrtiles=F and set a value for const_frac_irr.
In both option 2 and 3, irrigtiles is the index of tiles you wish to irrigate, the length of which is nirrigtiles e.g. if you include wheat and maize in your run at index 5 and 6 then irrigtiles=5,6 and nirrigtiles=2.
-
JULES_IRRIG::
read_from_dump
¶ Type: logical Default: F - TRUE
- Populate variables associated with this namelist from the dump file. All other namelist members are ignored.
- FALSE
- Use the other namelist members to determine how to populate variables.
-
JULES_IRRIG::
frac_irrig_all_tiles
¶ Type: logical Default: T If T, then irrigation fraction is applied to all tiles, and F, it is applied only to the tiles specified in
irrigtiles
.
-
JULES_IRRIG::
set_irrfrac_on_irrtiles
¶ Type: logical Default: F If F then irrigation is applied as an average across the gridbox and not to specific tiles. If T, then the irrigation fraction is only applied to the tile specified in
irrigtiles
. Bothfrac_irrig_all_tiles
andset_irrfrac_on_irrtiles
cannot be set to T.
-
JULES_IRRIG::
nirrtile
¶ Type: integer Default: None The number of tile types to be irrigated. Only used if
frac_irrig_all_tiles
= F.
-
JULES_IRRIG::
irrigtiles
¶ Type: integer(nirrtile) Default: None Indices of the tiles to be irrigated. Only used if
frac_irrig_all_tiles
= F.
-
JULES_IRRIG::
read_file
¶ Type: logical Default: T Indicates if irrigated fraction is to be read from file.
- TRUE
- Irrigated fraction is read from the file specified in
file
. - FALSE
- Irrigated fraction is set to the constant value specified in
const_frac_irr
.
-
JULES_IRRIG::
file
¶ Type: character Default: None The file from which irrigation fractions are read, including path.
-
JULES_IRRIG::
var_name
¶ Type: character Default: ‘frac_irig’ The name of the variable containing the irrigated fraction data.
Note
This is only used for NetCDF files. For ASCII files, the irrigated fraction data is expected to be the first (ideally only) variable in the file.
In the file, the variable must have no levels or time dimensions.
-
JULES_IRRIG::
const_frac_irr
¶ Type: real Default: none The constant irrigated fraction to be applied to all grid points.
-
JULES_IRRIG::
const_irrfrac_irrtiles
¶ Type: real Default: none The constant irrigated fraction to be applied to specific tiles given in
irrigtiles
.
6.19.9. JULES_RIVERS_PROPS
namelist members¶
This namelist specifies how spatially varying river routing properties should be set.
Note
read_from_dump
is not currently implemented for this namelist, although initial condition variables can be read from a dump file if i_river_vn
is 1
, 2
, or 3
(see JULES_INITIAL
).
Note
The river routing code in JULES is still in development. Users should ensure that results are as expected, and provide feedback where deficiencies are identified.
Note
The grid on which the river routing will run, and on which river routing ancillaries must be provided, could potentially differ from the input/model grid specified in model_grid.nml.
For the duration of this document, the following nomenclature will be used:
- Model input grid - The full JULES input grid specified in
JULES_INPUT_GRID
- River routing grid - The grid on which the river routing will run, and on which river routing ancillaries will be provided
Currently, information about the river routing grid and its relationship to the model input grid is specified in JULES_RIVERS_PROPS
.
While the model input can be defined on a 1D grid, the river routing grid must be 2D, as defined through the x and y dimensions of the rivers ancillary file. See x_dim_name
and y_dim_name
for further details. If a non-regular model and river routing grid is used, both the x and y dimensions and corresponding latitude and longitude values must be specified for each grid point.
For some applications, the model input and river routing grids may not be coincident. Note that functionality only currently exists to regrid between regular (but non-identical) model input and river routing grids. If a non-regular model input grid is specified, it is assumed that the model input and river routing grids will be coincident.
Members used to define the river routing grid
-
JULES_RIVERS_PROPS::
rivers_reglatlon
¶ Type: logical Default: T Flag indicating if the river routing grid is regular in latitude and longitude.
- TRUE
- River routing grid is regular in latitude and longitude.
- FALSE
- River routing grid is not regular in latitude and longitude (e.g. grid defined relative to a rotated pole, National Grid, etc). Only
i_river_vn
=2
should be used in this case. Note that the model input and river routing grids must be coincident in this case andrivers_regrid
must also be set to false.
-
JULES_RIVERS_PROPS::
x_dim_name
¶ Type: character Default: None The name of the x dimension for the river routing grid.
Note
For ASCII files, this can be anything. For NetCDF files, it should the name of the dimension in input file(s).
Warning
Values for the x dimension of the river routing grid will need to be read from the input file to define the grid, so it is assumed that the file contains a variable of the same name. If a non-regular river routing grid is used, a 2D longitude field will also be needed to define the x-location of each grid point, read in via the longitude_2d ancillary field.
-
JULES_RIVERS_PROPS::
y_dim_name
¶ Type: character Default: None The name of the y dimension for the river routing grid.
Note
For ASCII files, this can be anything. For NetCDF files, it should the name of the dimension in input file(s).
Warning
Values for the y dimension of the river routing grid will need to be read from the input file to define the grid, so it is assumed that the file contains a variable of the same name. If a non-regular river routing grid is used, a 2D latitude field will also be needed to define the y-location of each grid point, read in via the latitude_2d ancillary field.
-
JULES_RIVERS_PROPS::
nx
¶ Type: integer Permitted: >= 1 Default: None The size of the x dimension of the river routing grid.
-
JULES_RIVERS_PROPS::
ny
¶ Type: integer Permitted: >= 1 Default: None The size of the y dimension of the river routing grid.
Members used to define the relationship between the model input grid and the river routing grid
-
JULES_RIVERS_PROPS::
rivers_regrid
¶ Type: logical Default: T Flag indicating if the model input and river routing grids are identical, i.e. whether regridding of variables to and from the river routing grid is required. Note this is only currently possible if
rivers_reglatlon
is TRUE.- TRUE
- River routing and model input grids differ and regridding is required.
- FALSE
- River routing and model input grids are identical.
Warning
Currently, regridding between model input and river routing grids must only be used with regular lat/lon model input and river routing grids.
- If a 1D model input grid is specified in
JULES_INPUT_GRID
, it must be possible to define a 2D regular lat/lon grid containing all the points in the model input grid. This is done using the variables below.
An example with the GSWP2 (land points only) forcing data is given below.
Only used when JULES_INPUT_GRID::grid_is_1d
= TRUE or for a parallel standalone run.
-
JULES_RIVERS_PROPS::
nx_grid
¶ Type: integer Permitted: >= 1 Default: JULES_RIVERS_PROPS::nx
The size of the x dimension of the 2D regular lat/lon grid containing the model input grid.
-
JULES_RIVERS_PROPS::
ny_grid
¶ Type: integer Permitted: >= 1 Default: JULES_RIVERS_PROPS::ny
The size of the y dimension of the 2D regular lat/lon grid containing the model input grid.
-
JULES_RIVERS_PROPS::
reg_lat1
¶ Type: real Default: Latitude of lower-left corner of river routing grid The latitude of the lower-left corner of the 2D regular lat-lon grid containing the model input grid.
-
JULES_RIVERS_PROPS::
reg_lon1
¶ Type: real Default: Longitude of lower-left corner of river routing grid The longitude of the lower-left corner of the 2D regular lat/lon grid containing the model input grid.
-
JULES_RIVERS_PROPS::
reg_dlat
¶ Type: real Default: Latitude spacing of river routing grid The latitude spacing of the 2D regular lat/lon grid containing the model input grid.
-
JULES_RIVERS_PROPS::
reg_dlon
¶ Type: real Default: Longitude spacing of river routing grid The longitude spacing of the 2D regular lat/lon grid containing the model input grid.
Only used when rivers_reglatlon
= FALSE
-
JULES_RIVERS_PROPS::
rivers_dx
¶ Type: real Permitted: > 0 Default: 0 The constant size of the rivers grid (in m) if non-regular in latitude/longitude (e.g. if defined in National Grid coordinates).
Members used to determine how river routing variables are set
-
JULES_RIVERS_PROPS::
file
¶ Type: character Default: None The file to read river routing properties from.
If
use_file
is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
JULES_RIVERS_PROPS::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of river routing property variables that will be provided (see List of rivers properties).
- For RFM, at least direction is currently required
- For TRIP, at least direction and sequence are required
-
JULES_RIVERS_PROPS::
var
¶ Type: character(nvars) Default: None List of river routing variable names as recognised by JULES (see List of rivers properties). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
JULES_RIVERS_PROPS::
use_file
¶ Type: logical(nvars) Default: T For each JULES variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
JULES_RIVERS_PROPS::
var_name
¶ Type: character(nvars) Default: ‘’ (empty string) For each JULES variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.If the empty string (the default) is given for any variable, then the corresponding value from
var
is used instead.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given in that case.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
JULES_RIVERS_PROPS::
tpl_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
, this is the string to substitute into the file name in place of the variable name substitution string.If the file name does not use variable name templating, this is not used.
-
JULES_RIVERS_PROPS::
const_val
¶ Type: real(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point.This is not used for variables where
use_file
= TRUE, but a placeholder must still be given in that case.
6.19.9.1. Example¶
The following gives an example of how you would set up the namelists to use routing with the GSWP2 forcing data.
The model input grid is the GSWP2 grid, i.e. a land-points-only, 1D grid where points lie on a 1° x 1° grid. The river routing grid is a 2D 1° x 1° grid.
Since both grids are 1° x 1°, we define the 2D regular lat-lon grid containing the model input grid to be the river routing grid, which means we don’t need any regridding of variables.
&JULES_INPUT_GRID
grid_is_1d = T,
npoints = 15238,
grid_dim_name = "land"
# ...
/
# ...
&JULES_RIVERS_PROPS
# Define the river routing grid to be a 2D regular lat-lon grid
rivers_reglatlon = T,
x_dim_name = "longitude",
nx = 360,
y_dim_name = "latitude",
ny = 180,
# Define the 2D regular lat-lon grid containing the model input grid to be a 2D 1\ |deg| x 1\ |deg| grid
nx_grid = 360,
ny_grid = 180,
reg_lat1 = -89.5,
reg_lon1 = -179.5,
reg_dlat = 1.0,
reg_dlon = 1.0,
# No regridding required since the river routing grid is the same as the 2D regular lat-lon grid containing the model input grid
rivers_regrid = F
/
6.19.9.2. List of rivers properties¶
The following table summarises river routing grid properties required to run RFM or TRIP river routing algorithms, specified from an ancillary file if use_file
= TRUE.
Name | Description |
---|---|
area |
Drainage area (in number of grid boxes) draining into a given grid box. This does not include the grid point itself, and so an extra point to account for the grid point itself must be added where catchment area calculations are required. This is used if If not available, all points with a valid direction are set to ( |
direction |
Flow direction for each river routing grid box, defining the next grid box into which surface or sub-surface water will be routed. This is specified as an integer according to This numbering system is based on the TRIP implementation, and may not be standard. Users should take care to ensure that the input ancillary is defined as required. |
sequence |
River routing network pathway number. Used by TRIP river routing only (i.e. |
latitude_2d |
If rivers_reglatlon = FALSE, the unique 2D location of each river grid point must be specified. |
longitude_2d |
If rivers_reglatlon = FALSE, the unique 2D location of each river grid point must be specified. |
See also
References:
- Bell, V.A. et al. (2007) Development of a high resolution grid-based river flow model for use with regional climate model output. Hydrology and Earth System Sciences. 11 532-549
- Oki, T., et al (1999) Assessment of annual runoff from land surface models using Total Runoff Integrating Pathways (TRIP). Journal of the Meteorological Society of Japan. 77 235-255
6.19.10. JULES_OVERBANK_PROPS
namelist members¶
This namelist specifies how the river overbank inundation properties should be set.
Note
read_from_dump
is not currently implemented for this namelist.
Note
The grid here MUST coincide exactly with the river routing grid specified in JULES_RIVERS_PROPS
.
Members used to determine how overbank inundation variables are set
-
JULES_OVERBANK_PROPS::
file
¶ Type: character Default: None The file to read overbank inundation properties from (can be the same file as specified in
JULES_RIVERS_PROPS
).If
use_file
is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
JULES_OVERBANK_PROPS::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of overbank inundation property variables that will be provided (see List of overbank inundation properties).
-
JULES_OVERBANK_PROPS::
var
¶ Type: character(nvars) Default: None List of overbank inundation variable names as recognised by JULES (see List of overbank inundation properties). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
JULES_OVERBANK_PROPS::
use_file
¶ Type: logical(nvars) Default: T For each JULES variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
JULES_OVERBANK_PROPS::
var_name
¶ Type: character(nvars) Default: ‘’ (empty string) For each JULES variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.If the empty string (the default) is given for any variable, then the corresponding value from
var
is used instead.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given in that case.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
JULES_OVERBANK_PROPS::
tpl_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
, this is the string to substitute into the file name in place of the variable name substitution string.If the file name does not use variable name templating, this is not used.
-
JULES_OVERBANK_PROPS::
const_val
¶ Type: real(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point.This is not used for variables where
use_file
= TRUE, but a placeholder must still be given in that case.
6.19.10.1. List of overbank inundation properties¶
The following table summarises overbank inundation grid properties, specified from an ancillary file if use_file
= TRUE.
Name | Description |
---|---|
logn_mean |
Mean of ln(elevation-elev_min) for each grid cell (in units ln(m)) This is only used if |
logn_stdev |
Standard deviation of ln(elevation-elev_min) for each grid cell (in units ln(m)) This is only used if |
See also
References:
- Appx B of Lewis HW, Castillo Sanchez JM, Graham J, Saulter A, Bornemann J, Arnold A, Fallmann J, Harris C, Pearson D, Ramsdale S, Martínez de la Torre A, Bricheno L, Blyth E, Bell VA, Davies H, Marthews TR, O’Neill C, Rumbold H, O’Dea E, Brereton A, Guihou K, Hines A, Butenschon M, Dadson SJ, Palmer T, Holt J, Reynard N, Best M, Edwards J & Siddorn J (2018). The UKC2 regional coupled environmental prediction system. Geoscientific Model Development 11:1-42.
6.19.11. URBAN_PROPERTIES
namelist members¶
-
URBAN_PROPERTIES::
file
¶ Type: character Default: None The file to read urban properties from.
If
use_file
(see below) is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
URBAN_PROPERTIES::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of urban property variables that will be provided.
The required variables depend on whether MORUSES is used or not:
- If MORUSES is on, all variables must be given. However, depending on the configuration of MORUSES, not all given variables will be used. Those that will not be used could be set to constant values to avoid setting them from file.
- If MORUSES is not on, only
wrr
is required.
-
URBAN_PROPERTIES::
var
¶ Type: character(nvars) Default: None List of urban property variable names as recognised by JULES (see List of urban properties). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
URBAN_PROPERTIES::
use_file
¶ Type: logical(nvars) Default: T For each JULES variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
URBAN_PROPERTIES::
var_name
¶ Type: character(nvars) Default: ‘’ (empty string) For each JULES variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.If the empty string (the default) is given for any variable, then the corresponding value from
var
is used instead.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
URBAN_PROPERTIES::
tpl_name
¶ Type: character(nvars) Default: None For each JULES variable specified in
var
, this is the string to substitute into the file name in place of the variable name substitution string.If the file name does not use variable name templating, this is not used.
-
URBAN_PROPERTIES::
const_val
¶ Type: real(nvars) Default: None For each JULES variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point in every layer.This is not used for variables where
use_file
= TRUE, but a placeholder must still be given.
6.19.11.1. List of urban properties¶
All of the urban property variables listed below are expected to have no levels dimensions and no time dimension.
Variable name | Description [1] | Notes |
---|---|---|
wrr |
Repeating width ratio (or canyon fraction, W/R) | If l_urban_empirical = TRUE
then this is updated with calculated values. |
The following apply to MORUSES only | ||
hwr |
Height-to-width ratio (H/W) | See for wrr above. |
hgt |
Building height (H) | See for wrr above. |
ztm |
Effective roughness length of urban areas | If l_moruses_macdonald = TRUE
then this is updated with calculated values. |
disp |
Displacement height | See for ztm above. |
albwl |
Wall albedo | Data only used if l_moruses_albedo = TRUE. |
albrd |
Road albedo | See for albwl above. |
emisw |
Wall emissivity | Data only used if l_moruses_emissivity = TRUE. |
emisr |
Road emissivity | See for emisw above. |
Footnotes
[1] | For more information on the urban geometry used please see the JULES technical documentation. |
6.19.12. JULES_CO2
namelist members¶
-
JULES_CO2::
read_from_dump
¶ Type: logical Default: F - TRUE
- Populate variables associated with this namelist from the dump file. All other namelist members are ignored.
- FALSE
- Use the other namelist members to determine how to populate variables.
-
JULES_CO2::
co2_mmr
¶ Type: real Default: 5.241e-4 Concentration of atmospheric CO2, expressed as a mass mixing ratio.
6.19.13. CABLE_PROGS
namelist members¶
This namelist specifies how CABLE prognostic variables should be set initially if the CABLE land surface model is being used.
-
CABLE_PROGS::
file
¶ Type: character Default: None The file to read initial values for CABLE prognostic variables from.
If
use_file
is FALSE for every variable, this will not be used.This file name can use variable name templating.
-
CABLE_PROGS::
nvars
¶ Type: integer Permitted: >= 0 Default: 0 The number of prognostic variables that will be provided (see List of CABLE prognostic variables).
-
CABLE_PROGS::
var
¶ Type: character(nvars) Default: None List of CABLE prognostic variable names as recognised by CABLE (see List of CABLE prognostic variables). Names are case sensitive.
Note
For ASCII files, variable names must be in the order they appear in the file.
-
CABLE_PROGS::
use_file
¶ Type: logical(nvars) Default: T For each CABLE variable specified in
var
, this indicates if it should be read from the specified file or whether a constant value is to be used.- TRUE
- The variable will be read from the file.
- FALSE
- The variable will be set to a constant value everywhere using
const_val
below.
-
CABLE_PROGS::
var_name
¶ Type: character(nvars) Default: ‘’ (empty string) For each CABLE variable specified in
var
whereuse_file
= TRUE, this is the name of the variable in the file containing the data.If the empty string (the default) is given for any variable, then the corresponding value from
var
is used instead.This is not used for variables where
use_file
= FALSE, but a placeholder must still be given in that case.Note
For ASCII files, this is not used - only the order in the file matters, as described above.
-
CABLE_PROGS::
const_val
¶ Type: real(nvars) Default: None For each CABLE variable specified in
var
whereuse_file
= FALSE, this is a constant value that the variable will be set to at every point in every layer.This is not used for variables where
use_file
= TRUE, but a placeholder must still be given in that case.
6.19.13.1. List of CABLE prognostic variables¶
Values are set for each tile of each grid point and for each layer of soil or snow.
Name | Description |
---|---|
SoilTemp_CABLE |
Temperature of each soil layer (K). |
SoilMoisture_CABLE |
Soil moisture content of each soil layer (kg m-2). |
FrozenSoilFrac_CABLE |
Frozen soil moisture content of each soil layer as a fraction of saturation. |
SnowDepth_CABLE |
Depth of each snow level (m). |
SnowMass_CABLE |
Mass of each each snow level (kg). |
SnowTemp_CABLE |
Temperature for each snow layer (K). |
SnowDensity_CABLE |
Density for each snow layer (kg m-3). |
SnowAge_CABLE |
Age of each snow layer |
OneLyrSnowDensity_CABLE |
Snow density when all snow treated as one layer. (kg m-3) |
ThreeLayerSnowFlag_CABLE |
Flag for 3 layer snow pack (0 - false, 1 - true) |
6.19.14. References for ancillaries¶
- Kattge, J. and Knorr, W., 2007, Temperature acclimation in a biochemical model of photosynthesis: a reanalysis of data from 36 species, Plant, Cell and Environment, 30: 1176–1190, https://doi.org/10.1111/j.1365-3040.2007.01690.x.