runread_pmodel_f: Run the P-model
In stineb/rsofun: The P-Model and BiomeE Modelling Framework
View source: R/runread_pmodel_f.R
runread_pmodel_f R Documentation
Run the P-model
Description
Runs the P-model and loads output in once.
Usage
runread_pmodel_f(drivers, par, makecheck = TRUE, parallel = FALSE, ncores = 1)
Arguments
drivers
A nested data frame with one row for each site and columns
named according to the arguments of function run_pmodel_f_bysite,
namely sitename, params_siml, site_info and forcing.
par
A named list of free (calibratable) model parameters.
- kphio
The quantum yield efficiency at optimal temperature \varphi_0,
in mol mol^{-1}.
When temperature dependence is used, it corresponds to the multiplicative
parameter c (see Details).
- kphio_par_a
The shape parameter a of the temperature-dependency of
quantum yield efficiency (see Details).
To disable the temperature dependence, set kphio_par_a = 0.
- kphio_par_b
The optimal temperature parameter b of the temperature
dependent quantum yield efficiency (see Details), in ^oC.
- soilm_thetastar
The threshold parameter \theta^{*} in the
soil moisture stress function (see Details), given in mm.
To turn off the soil moisture stress, set soilm_thetastar = 0.
- soilm_betao
The intercept parameter \beta_{0} in the
soil moisture stress function (see Details). This is the parameter calibrated
in Stocker et al. 2020 GMD.
- beta_unitcostratio
The unit cost of carboxylation, corresponding to
\beta = b / a' in Eq. 3 of Stocker et al. 2020 GMD.
- rd_to_vcmax
Ratio of Rdark (dark respiration) to Vcmax25.
- tau_acclim
Acclimation time scale of photosynthesis, in days.
- kc_jmax
Parameter for Jmax cost ratio (corresponding to c^* in
Stocker et al. 2020 GMD).
makecheck
A logical specifying whether checks are performed to verify
forcings. Defaults to TRUE.
parallel
A logical specifying whether simulations are to be
parallelised (sending data from a certain number of sites to each core).
Defaults to FALSE.
ncores
An integer specifying the number of cores used for parallel
computing (by default ncores = 2).
Details
Depending on the input model parameters, it's possible to run the
different P-model setups presented in Stocker et al. 2020 GMD. The P-model
version implemented in this package allows more flexibility than the one
presented in the paper, with the following functions:
The temperature dependence of the quantum yield efficiency is given by:
\varphi_0 (T) = c (1 + a (T - b)^2 ) if 0 < c (1 + a (T - b)^2 ) < 1,
\varphi_0 (T) = 0 if c (1 + a (T - b)^2 ) \leq 0, and
\varphi_0 (T) = 1 if c (1 + a (T - b)^2 ) \geq 1.
The ORG setup can be reproduced by setting kphio_par_a = 0
and calibrating the kphio parameter only.
The BRC setup (which calibrates c_L = \frac{a_L b_L}{4} in Eq. 18) is more difficult to reproduce,
since the temperature-dependency has been reformulated and a custom cost
function would be necessary for calibration. The new parameters
are related to c_L as follows:
a = -0.0004919819
b = 32.35294
c = 0.6910823 c_L
The soil moisture stress is implemented as
\beta(\theta) = \frac{\beta_0 - 1}{{\theta^{*}}^2}
(\theta - \theta^{*})^2 + 1 if
0 \leq \theta \leq \theta^{*} and
\beta(\theta) = 1 if \theta > \theta^{*}.
In Stocker et al. 2020 GMD, the threshold plant-available soil water is set as
\theta^{*}
= 0.6 * whc where whc is the site's water holding capacity. Also,
the \beta reduction at low soil moisture (\beta_0 = \beta(0)) was parameterized
as a linear function of mean aridity (Eq. 20 in Stocker et al. 2020 GMD) but is
considered a constant model parameter in this package.
Hence, the FULL calibration setup cannot be
exactly replicated.
Value
A data frame (tibble) with one row for each site, site information
stored in the nested column site_info and outputs stored in the nested
column data. See run_pmodel_f_bysite for a detailed
description of the outputs.
Examples
# Define model parameter values from previous work
params_modl <- list(
kphio = 0.04998, # setup ORG in Stocker et al. 2020 GMD
kphio_par_a = 0.0, # disable temperature-dependence of kphio
kphio_par_b = 1.0,
soilm_thetastar = 0.6 * 240, # old setup with soil moisture stress
soilm_betao = 0.0,
beta_unitcostratio = 146.0,
rd_to_vcmax = 0.014, # from Atkin et al. 2015 for C3 herbaceous
tau_acclim = 30.0,
kc_jmax = 0.41
)
# Run the model for these parameters and the example drivers
output <- rsofun::runread_pmodel_f(
drivers = rsofun::p_model_drivers,
par = params_modl)
stineb/rsofun documentation built on April 29, 2024, 1:29 p.m.
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View source: R/runread_pmodel_f.R
| runread_pmodel_f | R Documentation |
Run the P-model
Description
Runs the P-model and loads output in once.
Usage
runread_pmodel_f(drivers, par, makecheck = TRUE, parallel = FALSE, ncores = 1)
Arguments
drivers |
A nested data frame with one row for each site and columns
named according to the arguments of function |
par |
A named list of free (calibratable) model parameters.
|
makecheck |
A logical specifying whether checks are performed to verify
forcings. Defaults to |
parallel |
A logical specifying whether simulations are to be
parallelised (sending data from a certain number of sites to each core).
Defaults to |
ncores |
An integer specifying the number of cores used for parallel
computing (by default |
Details
Depending on the input model parameters, it's possible to run the different P-model setups presented in Stocker et al. 2020 GMD. The P-model version implemented in this package allows more flexibility than the one presented in the paper, with the following functions:
The temperature dependence of the quantum yield efficiency is given by:
\varphi_0 (T) = c (1 + a (T - b)^2 ) if 0 < c (1 + a (T - b)^2 ) < 1,
\varphi_0 (T) = 0 if c (1 + a (T - b)^2 ) \leq 0, and
\varphi_0 (T) = 1 if c (1 + a (T - b)^2 ) \geq 1.
The ORG setup can be reproduced by setting kphio_par_a = 0
and calibrating the kphio parameter only.
The BRC setup (which calibrates c_L = \frac{a_L b_L}{4} in Eq. 18) is more difficult to reproduce,
since the temperature-dependency has been reformulated and a custom cost
function would be necessary for calibration. The new parameters
are related to c_L as follows:
a = -0.0004919819
b = 32.35294
c = 0.6910823 c_L
The soil moisture stress is implemented as
\beta(\theta) = \frac{\beta_0 - 1}{{\theta^{*}}^2}
(\theta - \theta^{*})^2 + 1 if
0 \leq \theta \leq \theta^{*} and
\beta(\theta) = 1 if \theta > \theta^{*}.
In Stocker et al. 2020 GMD, the threshold plant-available soil water is set as
\theta^{*}
= 0.6 * whc where whc is the site's water holding capacity. Also,
the \beta reduction at low soil moisture (\beta_0 = \beta(0)) was parameterized
as a linear function of mean aridity (Eq. 20 in Stocker et al. 2020 GMD) but is
considered a constant model parameter in this package.
Hence, the FULL calibration setup cannot be
exactly replicated.
Value
A data frame (tibble) with one row for each site, site information
stored in the nested column site_info and outputs stored in the nested
column data. See run_pmodel_f_bysite for a detailed
description of the outputs.
Examples
# Define model parameter values from previous work
params_modl <- list(
kphio = 0.04998, # setup ORG in Stocker et al. 2020 GMD
kphio_par_a = 0.0, # disable temperature-dependence of kphio
kphio_par_b = 1.0,
soilm_thetastar = 0.6 * 240, # old setup with soil moisture stress
soilm_betao = 0.0,
beta_unitcostratio = 146.0,
rd_to_vcmax = 0.014, # from Atkin et al. 2015 for C3 herbaceous
tau_acclim = 30.0,
kc_jmax = 0.41
)
# Run the model for these parameters and the example drivers
output <- rsofun::runread_pmodel_f(
drivers = rsofun::p_model_drivers,
par = params_modl)
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