Title: | Model II Regression |
---|---|
Description: | Computes model II simple linear regression using ordinary least squares (OLS), major axis (MA), standard major axis (SMA), and ranged major axis (RMA). |
Authors: | Pierre Legendre |
Maintainer: | Jari Oksanen <[email protected]> |
License: | GPL-2 |
Version: | 1.7-3 |
Built: | 2024-11-14 06:41:43 UTC |
Source: | CRAN |
This function computes model II simple linear regression using the following methods: ordinary least squares (OLS), major axis (MA), standard major axis (SMA), and ranged major axis (RMA). The model only accepts one response and one explanatory variable.
lmodel2(formula, data = NULL, range.y=NULL, range.x=NULL, nperm=0)
lmodel2(formula, data = NULL, range.y=NULL, range.x=NULL, nperm=0)
formula |
|
data |
A data frame containing the two variables specified in the formula. |
range.y , range.x
|
Parametres for ranged major axis regression
(RMA). If |
nperm |
Number of permutations for the tests. If |
Model II regression should be used when the two variables in the
regression equation are random, i.e. not controlled by the
researcher. Model I regression using least squares underestimates
the slope of the linear relationship between the variables when they
both contain error. Ordinary least squares (OLS) is, however, appropriate
in some cases as a model II regression model; see the “Model
II User's guide, R edition” which you can read using command
vignette("mod2user")
.
The model II regression methods of ordinary least squares (OLS),
major axis (MA), standard major axis (SMA), and ranged major axis
(RMA) are described in Legendre and Legendre (1998, Section
10.3.2). OLS, MA, and SMA are also described in Sokal and Rohlf
(1995). The PDF document “Model II User's guide, R edition”
provided with this function contains a tutorial for model II
regression, and can be read with command
vignette("mod2user")
.
The plot
function plots the data points together with one of the
regression lines, specified by method="OLS"
, method="MA"
(default),
method="SMA"
, or method="RMA"
, and its 95 percent confidence interval.
The default output provides the regression output. It draws
information from a list, produced by function lmodel2
, which
contains the following elements:
y |
The response variable. |
x |
The explanatory variable. |
regression.results |
A table with rows corresponding to the four regression methods. Column 1 gives the method name, followed by the intercept and slope estimates, the angle between the regression line and the abscissa, and the permutational probability (one-tailed, for the tail corresponding to the sign of the slope estimate). |
confidence.intervals |
A table with rows corresponding to the four regression methods. The method name is followed by the parametric 95 the intercept and slope estimates. |
eigenvalues |
Eigenvalues of the bivariate dispersion, computed during major axis regression. |
H |
The H statistic used for computing the confidence interval of the major axis slope. Notation following Sokal and Rohlf (1995). |
n |
Number of objects. |
r |
Correlation coefficient. |
rsquare |
Coefficient of determination (R-square) of the OLS regression. |
P.param |
2-tailed parametric P-value for the test of r and the OLS slope. |
theta |
Angle between the two OLS regression lines,
|
nperm |
Number of permutations for the permutation tests. |
epsilon |
Any value smaller than epsilon is considered to be zero. |
info.slope |
Information about the slope notation when |
info.CI |
Information about the confidence limits notation when the slope is infinite. |
call |
Call of the function. |
The package exports only the main functions lmodel2
,
plot.lmodel2
and lines.lmodel2
. Much of the work is
done by internal functions which are not directly visible, but you
can use triple colon to see or directly use these functions (e.g.,
lmodel2:::print.lmodel2
). Internal functions that perform
essential parts of the analysis are MA.reg
, SMA.reg
,
CLma
, CLsma
and permutest.lmodel2
.
Pierre Legendre, Departement de Sciences Biologiques, Universite de Montreal
Legendre, P. and L. Legendre. 1998. Numerical ecology, 2nd English edition. Elsevier Science BV, Amsterdam.
Sokal, R. R. and F. J. Rohlf. 1995. Biometry – The principles and practice of statistics in biological research. 3rd edition. W. H. Freeman, New York.
A tutorial (file “Model II User's guide, R edition”) is provided
with this function, and can be read within R session using command
vignette("mod2user", package="lmodel2")
.
## The example data files are described in more detail in the ## \dQuote{Model II User's guide, R edition} tutorial. ## Example 1 (surgical unit data) data(mod2ex1) Ex1.res <- lmodel2(Predicted_by_model ~ Survival, data=mod2ex1, nperm=99) Ex1.res plot(Ex1.res) ## Example 2 (eagle rays and Macomona) data(mod2ex2) Ex2.res <- lmodel2(Prey ~ Predators, data=mod2ex2, "relative", "relative", 99) Ex2.res op <- par(mfrow = c(1,2)) plot(Ex2.res, "SMA") plot(Ex2.res, "RMA") par(op) ## Example 3 (cabezon spawning) op <- par(mfrow = c(1,2)) data(mod2ex3) Ex3.res <- lmodel2(No_eggs ~ Mass, data=mod2ex3, "relative", "relative", 99) Ex3.res plot(Ex3.res, "SMA") plot(Ex3.res, "RMA") par(op) ## Example 4 (highly correlated random variables) op <- par(mfrow=c(1,2)) data(mod2ex4) Ex4.res <- lmodel2(y ~ x, data=mod2ex4, "interval", "interval", 99) Ex4.res plot(Ex4.res, "OLS") plot(Ex4.res, "MA") par(op) # Example 5 (uncorrelated random variables) data(mod2ex5) Ex5.res <- lmodel2(random_y ~ random_x, data=mod2ex5, "interval", "interval", 99) Ex5.res op <- par(mfrow = c(2,2)) plot(Ex5.res, "OLS") plot(Ex5.res, "MA") plot(Ex5.res, "SMA") plot(Ex5.res, "RMA") par(op) ## Example 6 where cor(y,x) = 0 by construct (square grid of points) y0 = rep(c(1,2,3,4,5),5) x0 = c(rep(1,5),rep(2,5),rep(3,5),rep(4,5),rep(5,5)) plot(x0, y0) Ex6 = as.data.frame(cbind(x0,y0)) zero.res = lmodel2(y0 ~ x0, data=Ex6, "relative", "relative") print(zero.res) op <- par(mfrow = c(1,2)) plot(zero.res, "OLS") plot(zero.res, "MA") par(op)
## The example data files are described in more detail in the ## \dQuote{Model II User's guide, R edition} tutorial. ## Example 1 (surgical unit data) data(mod2ex1) Ex1.res <- lmodel2(Predicted_by_model ~ Survival, data=mod2ex1, nperm=99) Ex1.res plot(Ex1.res) ## Example 2 (eagle rays and Macomona) data(mod2ex2) Ex2.res <- lmodel2(Prey ~ Predators, data=mod2ex2, "relative", "relative", 99) Ex2.res op <- par(mfrow = c(1,2)) plot(Ex2.res, "SMA") plot(Ex2.res, "RMA") par(op) ## Example 3 (cabezon spawning) op <- par(mfrow = c(1,2)) data(mod2ex3) Ex3.res <- lmodel2(No_eggs ~ Mass, data=mod2ex3, "relative", "relative", 99) Ex3.res plot(Ex3.res, "SMA") plot(Ex3.res, "RMA") par(op) ## Example 4 (highly correlated random variables) op <- par(mfrow=c(1,2)) data(mod2ex4) Ex4.res <- lmodel2(y ~ x, data=mod2ex4, "interval", "interval", 99) Ex4.res plot(Ex4.res, "OLS") plot(Ex4.res, "MA") par(op) # Example 5 (uncorrelated random variables) data(mod2ex5) Ex5.res <- lmodel2(random_y ~ random_x, data=mod2ex5, "interval", "interval", 99) Ex5.res op <- par(mfrow = c(2,2)) plot(Ex5.res, "OLS") plot(Ex5.res, "MA") plot(Ex5.res, "SMA") plot(Ex5.res, "RMA") par(op) ## Example 6 where cor(y,x) = 0 by construct (square grid of points) y0 = rep(c(1,2,3,4,5),5) x0 = c(rep(1,5),rep(2,5),rep(3,5),rep(4,5),rep(5,5)) plot(x0, y0) Ex6 = as.data.frame(cbind(x0,y0)) zero.res = lmodel2(y0 ~ x0, data=Ex6, "relative", "relative") print(zero.res) op <- par(mfrow = c(1,2)) plot(zero.res, "OLS") plot(zero.res, "MA") par(op)
These example data sets for model II regression are discussed in the
vignette
“Model II Regression User Guide”.
data(mod2ex1)
data(mod2ex1)
See vignette
“Model II Regression User Guide”.
data(mod2ex1)
data(mod2ex1)