R/subroutines.R
ftemp_kphio.Rd
Calculates the temperature dependence of the quantum yield efficiency following the temperature dependence of the maximum quantum yield of photosystem II in light-adapted tobacco leaves, determined by Bernacchi et al. (2003)
ftemp_kphio(tc, c4 = FALSE)
Temperature, relevant for photosynthesis (degrees Celsius)
Boolean specifying whether fitted temperature response for C4 plants
is used. Defaults to FALSE
(C3 photoynthesis temperature resposne following
Bernacchi et al., 2003 is used).
A numeric value for \(\phi(T)\)
The temperature factor for C3 photosynthesis (argument c4 = FALSE
) is calculated
based on Bernacchi et al. (2003) as
$$
\phi(T) = 0.352 + 0.022 T - 0.00034 T^2
$$
The temperature factor for C4 (argument c4 = TRUE
) photosynthesis is calculated based on
pers. comm. by David Orme, correcting values provided in Cai & Prentice (2020). Corrected
parametrisation is:
$$
\phi(T) = -0.064 + 0.03 T - 0.000464 T^2
$$
The factor \(\phi(T)\) is to be multiplied with leaf absorptance and the fraction
of absorbed light that reaches photosystem II. In the P-model these additional factors
are lumped into a single apparent quantum yield efficiency parameter (argument kphio
to function rpmodel).
Bernacchi, C. J., Pimentel, C., and Long, S. P.: In vivo temperature response func-tions of parameters required to model RuBP-limited photosynthesis, Plant Cell Environ., 26, 1419–1430, 2003 Cai, W., and Prentice, I. C.: Recent trends in gross primary production and their drivers: analysis and modelling at flux-site and global scales, Environ. Res. Lett. 15 124050 https://doi.org/10.1088/1748-9326/abc64e, 2020