bake {photosynthesis} | R Documentation |
Leaf parameter temperature responses
Description
'bake' leaf parameters using temperature response functions
Usage
bake(leaf_par, enviro_par, bake_par, constants, assert_units = TRUE)
temp_resp1(par25, E_a, R, T_leaf, T_ref, unitless)
temp_resp2(par25, D_s, E_a, E_d, R, T_leaf, T_ref, unitless)
Arguments
leaf_par |
A list of leaf parameters inheriting class |
enviro_par |
A list of environmental parameters inheriting class |
bake_par |
A list of temperature response parameters inheriting class |
constants |
A list of physical constants inheriting class |
assert_units |
Logical. Should parameter |
par25 |
Parameter value at 25 °C of class |
E_a |
Empirical temperature response value in J/mol of class
|
R |
Ideal gas constant in J / (mol K) of class |
T_leaf |
Leaf temperature in K of class |
T_ref |
Reference temperature in K of class |
unitless |
Logical. Should |
D_s |
Empirical temperature response value in J / (mol K) of class
|
E_d |
Empirical temperature response value in J/mol of class
|
Details
Several leaf parameters (leaf_par()
) are temperature sensitive.
Temperature-sensitive parameters are input at a reference temperature of
25 °C. These parameters are provided as par_name25
and then "baked"
using the appropriate temperature response function and parameters in
bake_par()
. The "baked" parameter will have the name without "25"
appended (par_name
). E.g. V_cmax25
becomes V_cmax
.
Temperature response functions following Buckley and Diaz-Espejo (2015)
Temperature response function 1 (temp_response1
):
\mathrm{par}(T_\mathrm{leaf}) = \mathrm{par25}~\mathrm{exp}(E_\mathrm{a} / (R T_\mathrm{ref}) (T_\mathrm{leaf} - 25) / (T_\mathrm{leaf} + 273.15))
T_\mathrm{ref}
is the reference temperature in K
T_\mathrm{leaf}
is the leaf temperature in °C
Temperature response function 2 (temp_response2
) is the above equation multiplied by:
(1 + \mathrm{exp}((D_\mathrm{s} / R - E_\mathrm{d} / (R T_\mathrm{ref})))) / (1 + \mathrm{exp}((D_\mathrm{s} / R) - (E_\mathrm{d} / (R (T_\mathrm{leaf} + 273.15)))))
Function 1 increases exponentially with temperature; Function 2 peaks a particular temperature.
Value
Constructor function for baked
class. This will also inherit class
leaf_par()
and list()
. This function ensures that
temperature is "baked in" to leaf parameter calculations T_leaf
using
temperature response functions detailed below.
References
Buckley TN, Diaz-Espejo A. 2015. Partitioning changes in photosynthetic rate into contributions from different variables. Plant, Cell and Environment 38: 1200-1211.
Examples
bake_par = make_bakepar()
constants = make_constants(use_tealeaves = FALSE)
enviro_par = make_enviropar(use_tealeaves = FALSE)
leaf_par = make_leafpar(
replace = list(T_leaf = set_units(293.15, K)),
use_tealeaves = FALSE
)
baked_leafpar = bake(leaf_par, enviro_par, bake_par, constants)
baked_leafpar$V_cmax25
baked_leafpar$V_cmax