This file sets options and parameters for soil biogeochemistry.
If using the single-pool or RothC soil models, all soil parameters are read from this file.
If using the ECOSSE soil model, most soil parameters are read from a separate file (jules_soil_ecosse.nml).
Type: | integer |
---|---|
Permitted: | 1, 2 or 3 |
Default: | 1 |
Choice for model of soil biogeochemistry.
Possible values are:
Warning
The ECOSSE model in JULES is still in development and is not fully functional in this version. The code is included to allow further development. Users should not try to use ECOSSE.
See also
References:
Parameters for the single-pool model (only used if soil_bgc_model = 1)
Type: | real |
---|---|
Default: | 0.5e-8 |
Specific soil respiration rate at 25 degC and optimum soil moisture (s-1).
See Hadley Centre Technical Note 24, Eq.16, available from the Met Office Library.
Parameters for the single-pool and RothC models (only used if soil_bgc_model = 1 or 2)
Type: | logical |
---|---|
Default: | T |
Switch for use of Q10 approach when calculating soil respiration.
Use Q10 approach.
Note
This is always enforced if the single-pool model is selected (soil_bgc_model = 1) and was used in JULES2.0.
Type: | logical |
---|---|
Default: | F |
Switch affecting the temperature and moisture used for soil respiration calculation.
Temperature and unfrozen moisture content of the first (topmost) soil layer are used.
Note
If layered soil C is used (l_layeredc = TRUE) the temperature and moisture of each soil layer is used to calculation respiration from that layer.
Type: | real |
---|---|
Default: | 2.0 |
Q10 factor for soil respiration.
Only used if l_q10 = TRUE.
See Hadley Centre Technical Note 24, Eq.17, available from the Met Office Library.
Parameters for the RothC-based model (only used if soil_bgc_model = 2)
Type: | logical |
---|---|
Default: | F |
Switch for using the layered soil carbon model.
If the RothC model is used (soil_bgc_model = 2 this uses the approach of Burke et al. (2016) and two extra parameters are required: tau_resp, tau_lit.
Layered soil nitrogen is also available if the nitrogen cycle is switched on (l_nitrogen = TRUE), but this is a highly experimental version which needs further evaluation and so should be used with extreme caution. One additional parameter is required for layered soil nitrogen: diff_n_pft.
See also
References:
Type: | real(4) |
---|---|
Default: | 3.22e-7, 9.65e-9, 2.12e-8, 6.43e-10 |
Specific soil respiration rate for the RothC submodel for each soil carbon pool (biomass, humus, decomposable plant material, resistant plant material).
Type: | real |
---|---|
Default: | 10.0 |
Parameter controlling ratio of C to N for BIO and HUM pools.
Type: | real |
---|---|
Default: | 10.0 |
Parameter controlling the leaching of inorganic N through the soil profile. A factor of 1 means that in a timestep all the inorganic N is available for leaching. The default value of 10 means that 10% of inorganic N is available for leaching.
Type: | real |
---|---|
Default: | 1.0 |
Parameter controlling the lifetime of the inorganic N pool. A value of 1 implies the whole pool will turnover in 360 days.
Type: | real |
---|---|
Default: | 2.0 |
Parameter controlling decay of respiration with depth (m-1). Only used with layered soil carbon (l_layeredc = TRUE).
Type: | real |
---|---|
Default: | 5.0 |
Parameter controlling the rate of re-filling of the available inorganic nitrogen pool (1/360 days). This parameter determines how quickly the inorganic nitrogen reaches the roots after the roots uptake from the soil around them. This should be quicker than the turnover rate of inorganic nitrogen. In addition, it has to be small compared with the triffid timestep (360/triffid_period) otherwise the available inorganic nitrogen becomes unstable. Hence the choice of the default value 5. Only used with layered soil carbon and nitrogen scheme (l_layeredc = TRUE and l_nitrogen = TRUE). When l_trif_eq = TRUE or diff_n_pft is greater than (0.5 * 360 / triffid_period) then all of the inorganic nitrogen pool is deemed to be available.
Parameters for the RothC- or ECOSSE-based models (only used if soil_bgc_model = 2 or 3):
Type: | real |
---|---|
Default: | 5.0 |
Parameter controlling the decay of litter with depth (m-1). With RothC, this is only used with layered soil carbon (l_layeredc = TRUE). With ECOSSE, this is only used with plant_input_profile = 2.
Methane parameters and switches. Can be used for any choice of soil_bgc_model.
Warning
Some parameters may need to be re-tuned for different soil biogeochemistry models.
Type: | logical |
---|---|
Default: | F |
Switch to calculate methane emissions based on layered soil temperature.
Type: | logical |
---|---|
Default: | F |
Switch to couple the methane emission into the carbon cycle. In order to use this the methane must be calculated from layered soil temperature (l_ch4_tlayered = TRUE).
Type: | integer |
---|---|
Permitted: | 1, 2 or 3 |
Default: | 1 |
Choice of substrate for wetland methane. This controls the calculation method for the methane flux that is used to update soil carbon (only if l_ch4_interactive = TRUE) and to populate the variable fch4_wetl (seen by the atmospheric model in coupled mode).
Possible values are:
This replaces the previous switch l_wetland_ch4_npp.
Type: | real |
---|---|
Default: | 273.15 |
Reference temperature for the Q10 function CH4 emission calculation
Type: | real |
---|---|
Default: | 7.41e-12 |
Scale factor for wetland CH4 emissions when soil carbon is taken as the substrate for ch4 emissions (ch4_substrate = 1)
Type: | real |
---|---|
Default: | 3.7 |
Q10 value for wetland CH4 emissions when soil carbon is taken as the substrate for ch4 emissions (ch4_substrate = 1)
Type: | real |
---|---|
Default: | 9.99e-3 |
Scale factor for wetland CH4 emissions when NPP is taken as the substrate for ch4 emissions (ch4_substrate = 2)
Type: | real |
---|---|
Default: | 1.5 |
Q10 value for wetland CH4 emissions when npp is taken as the substrate for ch4 emissions (ch4_substrate = 2)
Type: | real |
---|---|
Default: | 4.36e-3 |
Scale factor for wetland CH4 emissions when soil respiration is taken as the substrate for ch4 emissions (ch4_substrate = 3)
Type: | real |
---|---|
Default: | 1.5 |
Q10 value for wetland CH4 emissions when soil respiration is taken as the substrate for ch4 emissions (ch4_substrate = 3)