This file contains a single namelist called JULES_PFTPARM that sets time-and space-invariant parameters for plant functional types.
This namelist reads the values of parameters for each of the plant functional types (PFTs). These parameters are a function of PFT only. Parameters that also vary with time and location can be prescribed in prescribed_data.nml. Parameters that are only required if the dynamic vegetation (TRIFFID) or phenology sections are requested are read separately in triffid_params.nml. Every member must be given a value for every run.
The files given in the examples directory are a good starting point for setting up any JULES run, and in the majority of cases can be left untouched.
HCTN24 and 30 refer to Hadley Centre technical notes 24 and 30, available from the Met Office Library.
Type: | character(npft) |
---|---|
Default: | None |
Name of each PFT. These names are for the user’s convenience, and do not have any special significance within JULES.
Type: | real(npft) |
---|---|
Default: | None |
The height of each PFT (m), also known as the canopy height.
The value read here is only used if TRIFFID is not active (l_triffid = FALSE).
Note
If TRIFFID is active, canopy height is a prognostic variable and its initial value is read in initial_conditions.nml.
Type: | real(npft) |
---|---|
Default: | None |
The leaf area index (LAI) of each PFT.
The value read here is only used if phenology is not active (l_phenol = FALSE).
Note
If phenology is active, LAI is a prognostic variable and its initial value is read in initial_conditions.nml.
Type: | integer(npft) |
---|---|
Default: | None |
Flag indicating whether PFT is C3 type.
Type: | integer(npft) |
---|---|
Default: | None |
Flag indicating leaf angle distribution.
Type: | real(npft) |
---|---|
Default: | None |
Allometric coefficient relating the target woody biomass to the leaf area index (kg carbon m-2).
Type: | real(npft) |
---|---|
Default: | None |
Woody biomass as a multiple of live stem biomass.
Type: | real(npft) |
---|---|
Default: | None |
Snow-covered albedo for large leaf area index.
Only used if l_spec_albedo = FALSE. See HCTN30 Eq.2.
Type: | real(npft) |
---|---|
Default: | None |
Snow-covered albedo for zero leaf area index.
Only used if l_spec_albedo = FALSE. See HCTN30 Eq.2.
Type: | real(npft) |
---|---|
Default: | None |
Snow-free albedo for large LAI.
Only used if l_spec_albedo = FALSE. See HCTN30 Eq.1.
Type: | real(npft) |
---|---|
Default: | None |
Upper bound for the snow-free albedo for large LAI, when scaled to match input obs.
Only used if l_spec_albedo = FALSE and l_albedo_obs = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Lower bound for the snow-free albedo for large LAI, when scaled to match input obs.
Only used if l_spec_albedo = FALSE and l_albedo_obs = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Quantum efficiency (mol CO2 per mol PAR photons).
Type: | real(npft) |
---|---|
Default: | None |
Leaf reflection coefficient for NIR. See HCTN30 Table 3.
Used when l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Upper limit for the leaf reflection coefficient for NIR, when l_albedo_obs = TRUE and l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Lower limit for the leaf reflection coefficient for NIR, when l_albedo_obs = TRUE and l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Leaf reflection coefficient for VIS (photosyntehtically active radiation). See HCTN30 Table 3.
Used when l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Upper limit for the leaf reflection coefficient for VIS, when l_albedo_obs = TRUE and l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Lower limit for the leaf reflection coefficient for VIS, when l_albedo_obs = TRUE and l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Allometric exponent relating the target woody biomass to the leaf area index. This is 5/3 in HCTN24 Eq.8.
Type: | real(npft) |
---|---|
Default: | None |
Minimum canopy capacity (kg m-2).
This is the minimum amount of water that can be held on the canopy. See HCTN30 p7.
Type: | real(npft) |
---|---|
Default: | None |
Rate of change of canopy capacity with LAI (kg m-2).
Canopy capacity is calculated as catch0 + dcatch_dlai*lai. See HCTN30 p7.
Type: | real(npft) |
---|---|
Default: | None |
Rate of change of leaf turnover rate with moisture availability.
Type: | real(npft) |
---|---|
Default: | None |
Rate of change of leaf turnover rate with temperature (K-1).
This is 9 in HCTN24 Eq.10.
Type: | real(npft) |
---|---|
Default: | None |
Critical humidity deficit (kg H2O per kg air).
Type: | real(npft) |
---|---|
Default: | None |
Rate of change of vegetation roughness length for momentum with height.
Roughness length is calculated as dz0v_dh * canht_ft. See HCTN30 p5.
Type: | real(npft) |
---|---|
Default: | None |
Live stemwood coefficient (kg C/m/LAI).
Type: | real(npft) |
---|---|
Default: | None |
Scale factor for dark respiration. See HCTN 24 Eq. 56.
Type: | real(npft) |
---|---|
Default: | None |
Moisture availability below which leaves are dropped.
Type: | real(npft) |
---|---|
Default: | None |
CI / CA for DQ = 0. See HCTN 24 Eq. 32.
Type: | real(npft) |
---|---|
Default: | None |
Minimum turnover rate for leaves (/360days).
Type: | real(npft) |
---|---|
Default: | None |
Minimum leaf conductance for H2`O (m s:sup:-1`).
Type: | real(npft) |
---|---|
Default: | None |
Infiltration enhancement factor.
The maximum infiltration rate defined by the soil parameters for the whole gridbox may be modified for each PFT to account for tile-dependent factors, such as macro-pores related to vegetation roots.
See HCTN30 p14 for full details.
Type: | real(npft) |
---|---|
Default: | None |
Light extinction coefficient - used with Beer’s Law for light absorption through tile canopies. See HCTN30 Eq.3.
Type: | real(npft) |
---|---|
Default: | None |
PAR Extinction coefficient (m2 leaf / m2 ground).
Type: | real(npft) |
---|---|
Default: | None |
Scale factor relating Vcmax with leaf nitrogen concentration. See HCTN 24 Eq. 51.
Type: | real(npft) |
---|---|
Default: | None |
Top leaf nitrogen concentration (kg N/kg C).
Type: | real(npft) |
---|---|
Default: | None |
Ratio of root nitrogen concentration to leaf nitrogen concentration.
Type: | real(npft) |
---|---|
Default: | None |
Ratio of stem nitrogen concentration to leaf nitrogen concentration.
Type: | real(npft) |
---|---|
Default: | None |
Leaf scattering coefficient for PAR.
Used when l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Upper limit for the leaf scattering coefficient for PAR, when l_albedo_obs = TRUE and l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Lower limit for the leaf scattering coefficient for PAR, when l_albedo_obs = TRUE and l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Leaf scattering coefficient for NIR.
Used when l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Upper limit for the leaf scattering coefficient for NIR, when l_albedo_obs = TRUE and l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Lower limit for the leaf scattering coefficient for NIR, when l_albedo_obs = TRUE and l_spec_albedo = TRUE.
Type: | real(npft) |
---|---|
Default: | None |
Growth respiration fraction.
Type: | real(npft) |
---|---|
Default: | None |
Root depth (m).
An exponential distribution with depth is assumed, with e-folding depth rootd_ft. Note that this means that generally some of the roots exist at depths greater than rootd_ft. See HCTN30 Eq.32.
Type: | real(npft) |
---|---|
Default: | None |
Specific density of leaf carbon (kg C/m2 leaf).
Type: | real(npft) |
---|---|
Default: | None |
Temperature below which leaves are dropped (K).
Type: | real(npft) |
---|---|
Default: | None |
Lower temperature for photosynthesis (deg C).
Type: | real(npft) |
---|---|
Default: | None |
Upper temperature for photosynthesis (deg C).
Type: | real(npft) |
---|---|
Default: | None |
Surface emissivity.
Type: | real(npft) |
---|---|
Default: | None |
Ratio of the roughness length for heat to the roughness length for momentum.
This is generally assumed to be 0.1. See HCTN30 p6. Note that this is the ratio of the roughness length for heat to that for momentum. It does not alter the roughness length for momentum, which is calculated using canht_ft_io and dz0v_dh_io.
Type: | real(npft) |
---|---|
Default: | None |
Ratio of the roughness length for heat to the roughness length for momentum for the CLASSIC aerosol scheme only.
Note
This makes no difference to the model when running standalone, and is only required to keep the standalone and UM interfaces consistent.
Type: | real(npft) |
---|---|
Default: | None |
Critical flux of O3 to vegetation (mmol m-2 s-1).
Type: | real(npft) |
---|---|
Default: | None |
Fractional reduction of photosynthesis with the cumulative uptake of O3 by leaves (mmol m-2).
Type: | real(npft) |
---|---|
Default: | None |
Isoprene Emission Factor (μg g-1 h-1).
Type: | real(npft) |
---|---|
Default: | None |
Monoterpene Emission Factor (μg g-1 h-1).
Type: | real(npft) |
---|---|
Default: | None |
Methanol Emission Factor (μg g-1 h-1).
Type: | real(npft) |
---|---|
Default: | None |
Acetone Emission Factor (μg g-1 h-1).