Farquhar: Farquhar-Ball-Berry coupled leaf gas exchange model

Description

Coupled photosynthesis-stomatal conductance model. A full implementation of the photosynthesis model by Farquhar et al. (1980), as described by Medlyn et al. (2002) (i.e., following their notation), coupled with a few choices of Ball-Berry type stomatal conductance models. The default is that of Medlyn et al. (2011). Many parameters can be set in this model, including all temperature response parameters and stomatal conductance parameters. See Details for more information. The minimum required parameters are: Vcmax, Jmax, Rd0 and G1. However, the model contains many other parameters, each with their own default value. To override the default value, for example: # Use Default values: Farquhar(PAR=1000, Tair=20, Ca=380, VPD=1, Vcmax=100, Jmax=150, Rd0=1) # Change the shape of the light response curve: Farquhar(PAR=1000, Tair=20, Ca=380, VPD=1, Vcmax=100, Jmax=150, Rd0=1, THETA=0.8) Below is a list and explanation of all the parameters and their default values. # Respiration parameters Q10F = 0.67 # logarithm of the Q10 (Equation for respiration : # RESP = RD0 * EXP(Q10F * (TLEAF-RTEMP)/10) * DAYRESP RTEMP = 25 # Reference temperature (T at which RD0 was measured) DAYRESP = 1.0 # Respiration in the light as fraction of that in the dark. TBELOW = -100.0 # No respiration occurs below this temperature (degC). # Stomatal conductance parameters MODELGS = 4 # model : 4 = Medlyn et al. 2011; 6 = Tuzet et al. 2003. EMAXLEAF = 999 # Only used when considering soil water stress and MODELGS is not 6. KTOT = 2 # Leaf-specific hydraulic conductance (mmol m-2 s-1 MPa-1) G0 = 0.03 # Stomatal leakiness (gs when photosynthesis is zero). D0L = 5 # Parameter for the Leuning model (MODELGS=3) GAMMA = 0 # Gamma for all Ball-Berry type models G1 = 7 # Parameter for all Ball-Berry type models GK = 0.3 # Parameter for three-parameter Medlyn et al. 2011 model (MODELGS=5) SF = 3.2 # Tuzet model parameters (MODELGS=6) PSIV = -1.9 # Light-response parameters of electron transport rate. THETA = 0.4 # Shape parameter of the non-rectangular hyperbola. AJQ = 0.324 # Quantum yield of electron transport. HMSHAPE = 0.999 # Shape of the hyperbolic minimum function (no need to change) # Temperature response parameters. # Parameters for Jmax. EAVJ = 37259 # Ha in Medlyn et al. (2002) EDVJ = 200000 # Hd in Medlyn et al. (2002) DELSJ = 640.02 # DELTAS in Medlyn et al. (2002) # Parameters for Vcmax. EAVC = 47590 # Ha in Medlyn et al. (2002) EDVC = 0.0 # Hd in Medlyn et al. (2002) DELSC = 0.0 # DELTAS in Medlyn et al. (2002)

Usage

Farquhar(PAR, Tair, Ca, VPD, RH = 0, Patm = 101, SWP = 0, Vcmax, Jmax,
  Rd0, G1, ...)

Arguments

PAR

Photosynthetically active radiation (mu mol m-2 s-1).

Tair

Air temperature (deg C)

Atmospheric CO2 (ppm)

VPD

Vapor pressure deficit (kPa)

Relative humidity (ignored unless MODELGS = 2)

Patm

Atmospheric pressure (kPa)

SWP

Soil water potential (MPa)

Vcmax

Required.

Jmax

Required.

Rd0

Dark respiration at 25 deg C (required).

Slope parameter in stomatal conductance model.

...

Other parameters can be set : see Details.

References

Farquhar, G.D., S. Caemmerer and J.A. Berry. 1980. A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta. 149:78-90. Medlyn, B.E., E. Dreyer, D. Ellsworth, M. Forstreuter, P.C. Harley, M.U.F. Kirschbaum, X. Le Roux, P. Montpied, J. Strassemeyer, A. Walcroft, K. Wang and D. Loustau. 2002. Temperature response of parameters of a biochemically based model of photosynthesis. II. A review of experimental data. Plant Cell and Environment. 25:1167-1179. 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.

Examples

Run this code

# A ypphy object, using the coupled Farquhar model.
eucphy <- setPhy("Farquhar", leafpars=list(Vcmax=50, Jmax=100, G1=8, G0=0.01, Rd0=1))

# The 'print' method reminds you what it is:
eucphy

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Description

Usage

Arguments

References

See Also

Examples