FARAO: FARquhar And Opti
In RemkoDuursma/plantecophys: Modelling and Analysis of Leaf Gas Exchange Data
Description
Usage
Arguments
Details
Author(s)
References
Description
The numerical solution of the optimal stomatal conductance model, coupled with
the Farquhar model of photosynthesis. The model of Medlyn et al. (2011) is an approximation
to this full numeric solution.
Usage
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Arguments
lambda
The marginal cost of water (mol mol-1)
Ca
The CO2 concentration.
VPD
Vapor pressure deficit (kPa)
photo
Which photosynthesis rate should stomata respond to? Defaults to 'BOTH', i.e.
the minimum of Vcmax and Jmax limited rates.
energybalance
If TRUE (Default = FALSE), calculates leaf temperature from energy balance
(and its effects on photosynthesis as well as leaf transpiration), using PhotosynEB.
C4
If TRUE, uses the C4 photosynthesis routine (AciC4)
Tair
Air temperature (deg C)
Wind
Wind speed (m s-1) (only used if energybalance=TRUE)
Wleaf
Leaf width (m) (only used if energybalance=TRUE)
StomatalRatio
The stomatal ratio (see PhotosynEB) (only used if
energybalance=TRUE)
LeafAbs
Leaf absorptance (see PhotosynEB) (only used if
energybalance=TRUE)
...
All other parameters are passed to Aci
Details
This model finds the Ci that maximizes A - lambda*E (Cowan & Farquhar 1977,
see also Medlyn et al. 2011). The new function FARAO2 is a much simpler (and probably
more stable) implementation, based on Buckley et al. 2014 (P,C&E). Both functions
are provided, as FARAO has a few more options than FARAO2, at the moment.
Author(s)
Remko Duursma
References
Buckley, T.N., Martorell, S., Diaz-Espejo, A., Tomas, M., Medrano, H., 2014. Is stomatal
conductance optimized over both time and space in plant crowns? A field test in
grapevine (Vitis vinifera). Plant Cell Environ doi:10.1111/pce.12343
Cowan, I. and G.D. Farquhar. 1977. Stomatal function in relation to leaf metabolism
and environment. Symposia of the Society for Experimental Biology. 31:471-505.
Medlyn, B.E., R.A. Duursma, D. Eamus, D.S. Ellsworth, I.C. Prentice, C.V.M. Barton,
K.Y. Crous, P. De Angelis, M. Freeman and L. Wingate. 2011. Reconciling the optimal
and empirical approaches to modelling stomatal conductance. Global Change Biology. 17:2134-2144.
RemkoDuursma/plantecophys documentation built on April 6, 2021, 2:45 a.m.
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Description Usage Arguments Details Author(s) References
Description
The numerical solution of the optimal stomatal conductance model, coupled with the Farquhar model of photosynthesis. The model of Medlyn et al. (2011) is an approximation to this full numeric solution.
Usage
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 |
Arguments
lambda |
The marginal cost of water (mol mol-1) |
Ca |
The CO2 concentration. |
VPD |
Vapor pressure deficit (kPa) |
photo |
Which photosynthesis rate should stomata respond to? Defaults to 'BOTH', i.e. the minimum of Vcmax and Jmax limited rates. |
energybalance |
If TRUE (Default = FALSE), calculates leaf temperature from energy balance
(and its effects on photosynthesis as well as leaf transpiration), using |
C4 |
If TRUE, uses the C4 photosynthesis routine ( |
Tair |
Air temperature (deg C) |
Wind |
Wind speed (m s-1) (only used if energybalance=TRUE) |
Wleaf |
Leaf width (m) (only used if energybalance=TRUE) |
StomatalRatio |
The stomatal ratio (see |
LeafAbs |
Leaf absorptance (see |
... |
All other parameters are passed to |
Details
This model finds the Ci that maximizes A - lambda*E (Cowan & Farquhar 1977, see also Medlyn et al. 2011). The new function FARAO2 is a much simpler (and probably more stable) implementation, based on Buckley et al. 2014 (P,C&E). Both functions are provided, as FARAO has a few more options than FARAO2, at the moment.
Author(s)
Remko Duursma
References
Buckley, T.N., Martorell, S., Diaz-Espejo, A., Tomas, M., Medrano, H., 2014. Is stomatal conductance optimized over both time and space in plant crowns? A field test in grapevine (Vitis vinifera). Plant Cell Environ doi:10.1111/pce.12343
Cowan, I. and G.D. Farquhar. 1977. Stomatal function in relation to leaf metabolism and environment. Symposia of the Society for Experimental Biology. 31:471-505.
Medlyn, B.E., R.A. Duursma, D. Eamus, D.S. Ellsworth, I.C. Prentice, C.V.M. Barton, K.Y. Crous, P. De Angelis, M. Freeman and L. Wingate. 2011. Reconciling the optimal and empirical approaches to modelling stomatal conductance. Global Change Biology. 17:2134-2144.
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