J: J: Rate of electron transport (umol/m^2/s)
In cdmuir/photosynthesis: Tools for Plant Ecophysiology & Modeling
J R Documentation
J: Rate of electron transport (umol/m^2/s)
Description
Calculate the rate of electron transport as a function of photosynthetic photon flux density (PPFD).
Usage
J(pars, unitless = FALSE)
Arguments
pars
Concatenated parameters (leaf_par, enviro_par, and constants)
unitless
Logical. Should units be set? The function is faster when FALSE, but input must be in correct units or else results will be incorrect without any warning.
Details
J as a function of PPFD is the solution to the quadratic expression:
0 = \theta_J J ^ 2 - J (J_\mathrm{max} + \phi_J PPFD) + J_\mathrm{max} \phi_J PPFD
Symbol R Description Units Default
J_\mathrm{max} J_max potential electron transport (T_leaf) \mumol CO2 / (m^2 s) calculated
\phi_J phi_J initial slope of the response of J to PPFD none 0.331
PPFD PPFD photosynthetic photon flux density \mumol quanta / (m^2 s) 1500
\theta_J theta_J curvature factor for light-response curve none 0.825
Value
Value in \mumol/ (m^2 s) of class units
Examples
library(magrittr)
library(photosynthesis)
bake_par = make_bakepar()
constants = make_constants(use_tealeaves = FALSE)
enviro_par = make_enviropar(use_tealeaves = FALSE)
leaf_par = make_leafpar(use_tealeaves = FALSE)
enviro_par$T_air = leaf_par$T_leaf
leaf_par %<>% bake(enviro_par, bake_par, constants)
pars = c(leaf_par, enviro_par, constants)
J(pars, FALSE)
cdmuir/photosynthesis documentation built on March 5, 2024, 9:26 a.m.
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| J | R Documentation |
J: Rate of electron transport (umol/m^2/s)
Description
Calculate the rate of electron transport as a function of photosynthetic photon flux density (PPFD).
Usage
J(pars, unitless = FALSE)
Arguments
pars |
Concatenated parameters ( |
unitless |
Logical. Should |
Details
J as a function of PPFD is the solution to the quadratic expression:
0 = \theta_J J ^ 2 - J (J_\mathrm{max} + \phi_J PPFD) + J_\mathrm{max} \phi_J PPFD
| Symbol | R | Description | Units | Default |
J_\mathrm{max} | J_max | potential electron transport (T_leaf) | \mumol CO2 / (m^2 s) | calculated |
\phi_J | phi_J | initial slope of the response of J to PPFD | none | 0.331 |
| PPFD | PPFD | photosynthetic photon flux density | \mumol quanta / (m^2 s) | 1500 |
\theta_J | theta_J | curvature factor for light-response curve | none | 0.825 |
Value
Value in \mumol/ (m^2 s) of class units
Examples
library(magrittr)
library(photosynthesis)
bake_par = make_bakepar()
constants = make_constants(use_tealeaves = FALSE)
enviro_par = make_enviropar(use_tealeaves = FALSE)
leaf_par = make_leafpar(use_tealeaves = FALSE)
enviro_par$T_air = leaf_par$T_leaf
leaf_par %<>% bake(enviro_par, bake_par, constants)
pars = c(leaf_par, enviro_par, constants)
J(pars, FALSE)
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