Package: rpmodel 1.2.3
rpmodel:P-Model
Implements the P-model (Stocker et al., 2020 <doi:10.5194/gmd-13-1545-2020>), predicting acclimated parameters of the enzyme kinetics of C3 photosynthesis, assimilation, and dark respiration rates as a function of the environment (temperature, CO2, vapour pressure deficit, light, atmospheric pressure).
Authors:
rpmodel_1.2.3.tar.gz
rpmodel_1.2.3.tar.gz(r-4.5-noble)rpmodel_1.2.3.tar.gz(r-4.4-noble)
rpmodel_1.2.3.tgz(r-4.4-emscripten)rpmodel_1.2.3.tgz(r-4.3-emscripten)
rpmodel.pdf |rpmodel.html✨
rpmodel/json (API)
# Installrpmodel in R: |
install.packages('rpmodel',repos = c('https://cran.r-universe.dev', 'https://cloud.r-project.org')) |
Bug tracker:https://github.com/geco-bern/rpmodel/issues
Last updated 8 days agofrom:cd9a31ff0f
Exports:calc_gammastarcalc_kmmcalc_patmcalc_soilmstressco2_to_cadampen_vecdensity_h2oftemp_arrhftemp_inst_jmaxftemp_inst_rdftemp_inst_vcmaxftemp_kphiorpmodelviscosity_h2o
Dependencies:
Readme and manuals
Help Manual
Help page | Topics |
---|---|
Calculates the CO2 compensation point | calc_gammastar |
Calculates the Michaelis Menten coefficient for Rubisco-limited photosynthesis | calc_kmm |
Calculates atmospheric pressure | calc_patm |
Calculates an empirical soil moisture stress factor | calc_soilmstress |
CO2 partial pressure | co2_to_ca |
Dampen inputs of rpmodel | dampen_vec |
Density of water | density_h2o |
Calculates the Arrhenius-type temperature response | ftemp_arrh |
Calculates the instantaneous temperature response of Jmax | ftemp_inst_jmax |
Calculates the temperature response of dark respiration | ftemp_inst_rd |
Calculates the instantaneous temperature response of Vcmax | ftemp_inst_vcmax |
Calculates the temperature dependence of the quantum yield efficiency | ftemp_kphio |
Invokes a P-model function call | rpmodel |
Viscosity of water | viscosity_h2o |