fsigmoidal: Sigmoidal vulnerability curve
In RemkoDuursma/fitplc: Fit Hydraulic Vulnerability Curves
Description
Usage
Arguments
References
Examples
Description
A sigmoidal-exponential function, which describes the relative conductivity as a function of the plant water potential. The relative conductivity is scaled to be 1 when water potential is zero. This function was used by Pammenter and vander Willigen (1998), but note that this implementation gives the relative conductivity, not the PLC (but relK = 1 - PLC). The slope of relK versus P at the inflection point can be calculated from the shape parameter (a) as slope = -a/4.
Usage
1
fsigmoidal(P, PX, a, X = 50)
Arguments
P
Water potential (positive-valued MPa)
PX
Water potential at X loss of conductivity (positive valued).
a
Shape parameter, related to the slope at the inflection point (see Description).
X
If 50, PX is the P50.
References
Pammenter, N.W., Willigen, C.V. der, 1998. A mathematical and statistical analysis of the curves illustrating vulnerability of xylem to cavitation. Tree Physiol 18, 589-593. doi:10.1093/treephys/18.8-9.589
Examples
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curve(fsigmoidal(x, PX=-2, a=5), from=0, to=-5)
curve(fsigmoidal(x, PX=-2, a=2), add=TRUE)
# Comparison to Weibull
curve(fweibull(x, PX=3, SX=40), from=0, to=6)
curve(fsigmoidal(x, PX=3, a=4*(40/100)), add=TRUE, col="red")
RemkoDuursma/fitplc documentation built on May 9, 2019, 9:39 a.m.
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Description Usage Arguments References Examples
Description
A sigmoidal-exponential function, which describes the relative conductivity as a function of the plant water potential. The relative conductivity is scaled to be 1 when water potential is zero. This function was used by Pammenter and vander Willigen (1998), but note that this implementation gives the relative conductivity, not the PLC (but relK = 1 - PLC). The slope of relK versus P at the inflection point can be calculated from the shape parameter (a) as slope = -a/4.
Usage
1 | fsigmoidal(P, PX, a, X = 50)
|
Arguments
P |
Water potential (positive-valued MPa) |
PX |
Water potential at X loss of conductivity (positive valued). |
a |
Shape parameter, related to the slope at the inflection point (see Description). |
X |
If 50, PX is the P50. |
References
Pammenter, N.W., Willigen, C.V. der, 1998. A mathematical and statistical analysis of the curves illustrating vulnerability of xylem to cavitation. Tree Physiol 18, 589-593. doi:10.1093/treephys/18.8-9.589
Examples
1 2 3 4 5 6 | curve(fsigmoidal(x, PX=-2, a=5), from=0, to=-5)
curve(fsigmoidal(x, PX=-2, a=2), add=TRUE)
# Comparison to Weibull
curve(fweibull(x, PX=3, SX=40), from=0, to=6)
curve(fsigmoidal(x, PX=3, a=4*(40/100)), add=TRUE, col="red")
|
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