6.7. jules_hydrology.nml
¶
This file sets the hydrology options. It contains one namelist called JULES_HYDROLOGY
.
6.7.1. JULES_HYDROLOGY
namelist members¶

JULES_HYDROLOGY::
l_top
¶ Type: logical Default: F Switch for a TOPMODELtype model of runoff production.
 TRUE
 Use a TOPMODELtype scheme. This is based on Gedney and Cox (2003); see also Clark and Gedney (2008).
 FALSE
 No TOPMODEL scheme.
See also
References:
 Gedney, N. and P.M.Cox, 2003 , The sensitivity of global climate model simulations to the representation of soil moisture heterogeneity, J. Hydrometeorology, 4, 12651275.
 Clark and Gedney, 2008, Representing the effects of subgrid variability of soil moisture on runoff generation in a land surface model, Journal of Geophysical Research  Atmospheres, 113, D10111, doi:10.1029/2007JD008940.

JULES_HYDROLOGY::
l_pdm
¶ Type: logical Default: F Switch for a PDMtype model of runoff production.
PDM is the Probability Distributed Model (Moore, 1985), implemented in JULES following Clark and Gedney (2008).
 TRUE
 Use a PDM scheme.
 FALSE
 No PDM scheme.
See also
References:
 Moore, R. J. (1985), The probabilitydistributed principle and runoff production at point and basin scales, Hydrol. Sci. J., 30, 273297.
 Clark and Gedney, 2008, Representing the effects of subgrid variability of soil moisture on runoff generation in a land surface model, Journal of Geophysical Research  Atmospheres, 113, D10111, doi:10.1029/2007JD008940.
Only used if l_top
= TRUE

JULES_HYDROLOGY::
zw_max
¶ Type: real Default: 6.0 The maximum allowed depth to the water table (m).
This is the depth to the bottom of an additional layer below the
sm_levels
soil layers and hence should be set to a value greater thanSUM(dzsoil)
.

JULES_HYDROLOGY::
ti_max
¶ Type: real Default: 10.0 The maximum possible value of the topographic index.

JULES_HYDROLOGY::
ti_wetl
¶ Type: real Default: 1.5 A calibration parameter used in the calculation of the wetland fraction.
It is used to increment the “critical” value of the topographic index that is used to calculate the saturated fraction of the gridbox. It excludes locations with large values of the topographic index from the wetland fraction.
See Gedney and Cox (2003).

JULES_HYDROLOGY::
nfita
¶ Type: integer Default: 20 The number of values tried when fitting wetland and saturation fractions to water table depth in the initialisation.

JULES_HYDROLOGY::
l_wetland_unfrozen
¶ Type: logical Default: F
 TRUE
 Treat the calculations of wetland and surface saturation fractions more like those of an unfrozen soil.
 FALSE
 Use standard wetland and surface saturation fraction calculations.
Only used if l_pdm
= TRUE

JULES_HYDROLOGY::
dz_pdm
¶ Type: real Default: 1.0 The depth of soil considered by PDM (m).
A value of ~1m can be used.

JULES_HYDROLOGY::
b_pdm
¶ Type: real Default: 1.0 Shape factor for the pdf.

JULES_HYDROLOGY::
s_pdm
¶ Type: real Permitted: 01 Default: 0.0 Minimum soil water content below which there is no surface runoff saturation excess production by PDM (fraction of maximum storage, as S0/Smax)

JULES_HYDROLOGY::
l_spdmvar
¶ Type: logical Default: F Use a linear function of topographic slope to calculate S0/Smax: s_pdm=MAX(0.0,1(slope/
slope_pdm_max
)).The function has been tested for Great Britain catchments.
This function will result in high S0/Smax values for flatter regions and low values for steeper regions.
 TRUE
 Use a linear function of slope to calculate S0/Smax.
 FALSE
 Use a fixed S0/Smax parameter, specified in
s_pdm
.
Only used if l_spdmvar
= TRUE

JULES_HYDROLOGY::
slope_pdm_max
¶ Type: real Default: 6.0 The maximum topographic slope (deg) in the linear function of slope to calculate S0/Smax. Slopes above this value will result in a S0/Smax value of zero.
A value of 6.0 has been tested for slope fields calculated from a high resolution DEM dataset (50m IHDTM for Great Britain).
For slopes calculated from coarser DEM datasets, a lower value might be more appropriate as fineresolution features of the terrain are not included.