2.6 Plant Physiology Fitting Functions

This opx, Plant Physiology Fitting Functions will add five fitting functions for plant physiology to Origin automatically.

BoxLucas1ModP3

Function

\[y=y_0+a(1-b^x)\]

Brief Description

a parameterization of Box Lucas Model with 3 parameters

Sample Curve

Parameters

Number: 3

Names: a, b, y0

Meanings: a = amplitude, b = base, y0 = offset

Lower Bounds: none

Upper Bounds: none

Script Access

nlf_BoxLucas1ModP3(x,a,b,y0)

Function File

fitfunc\BoxLucas1ModP3.fdf

Category

Exponential

BoxLucas1P3

Function

\[y=y_0+a(1-e^{-bx})\]

Brief Description

Box Lucas Model with 3 parameters

Sample Curve

Parameters

Number: 3

Names: a, b, y0

Meanings: a = amplitude, b = rate constant, y0 = offset

Lower Bounds: none

Upper Bounds: none

Script Access

nlf_BoxLucas1P3(x,a,b,y0)

Function File

fitfunc\BoxLucas1P3.fdf

Category

Exponential

ExpDec2Mod

Function

\[y=A_1(1-e^{-k_1x})+A_2(1-e^{-k_2x})\]

Brief Description

Double, four-parameter exponential decay function.

Sample Curve

Parameters

Number: 4

Names: A1, k1, A2, k2

Meanings: A1 = amplitude, k1 = rate constant, A2 = amplitude, k2 = rate constant

Lower Bounds: 0<k1,k2

Upper Bounds: none

Derived Parameters

Individual decay constant:

t1=1/k1

t2=1/k2

Script Access

nlf_ExpDec2Mod(x,A1,A2,k1,k2)

Function File

fitfunc\ExpDec2Mod.fdf

Category

Exponential

NonRectHyperbola

Function

\[y=\frac{1}{2\theta}\left[ {\alpha}x+y_m-\sqrt{({\alpha}x+y_m)^2-4{\alpha}{\theta}y_mx } \right]-y_0\]

Brief Description

Non-rectangular hyperbola

Sample Curve

Parameters

Number: 4

Names: \(\alpha\), \(\theta\), \(y_m\), \(y_0\)

Meanings: \(\alpha\) = initial slope, \(\theta\) = convexity factor, \(y_m\) = asymptotic value, \(y_0\) = offset

Lower Bounds: 0 < \(\theta\)

Upper Bounds: \(\theta\) < 1

Derived Parameters

light compensation point \(x_c = \frac{y_0({\theta}y_0-y_m)}{\alpha(y_0-y_m)}\)

light saturation estimate \(x_s = y_m/\alpha\)

Script Access

nlf_NonRectHyperbola(x,theta,alpha,ym,y0)

Function File

fitfunc\NonRectHyperbola.fdf

Category

Hyperbola

RLC

Function

\[P=P_s(1-e^{{-\alpha}E_d/P_s})e^{-{\beta}E_d/P_s}\]

Brief Description

Rapid light curve fitting model

Sample Curve

Parameters

Number: 3

Names: \(P_s\), \(\alpha\), \(\beta\)

Meanings: \(P_s\) = Scale Factor, \(\alpha\) = Initial Slope, \(\beta\) = RLC Slope

Lower Bounds: 0 <= \(\alpha\), \(\beta\)

Upper Bounds: none

Derived Parameters

\[rETR_{max}=\left\{\begin{matrix} P_s\frac{\alpha }{\alpha +\beta }\left ( \frac{\beta }{\alpha +\beta} \right )^{\frac{\beta }{\alpha }} \quad \beta \neq 0\\ P_s \qquad\qquad\qquad\qquad\beta =0 \end{matrix}\right.\]

\(E_k=\left\{\begin{matrix} \frac{P_s}{\alpha +\beta }\left ( \frac{\beta }{\alpha +\beta} \right )^{\frac{\beta }{\alpha }} \quad \beta \neq 0\\ \frac{P_s}{\alpha} \qquad\qquad\qquad\qquad\beta =0 \end{matrix}\right.\)

Script Access

nlf_RLC(Ed,Ps,alpha,beta)

Function File

fitfunc\RLC.fdf

Category

Plant Physiology