smatr-package | R Documentation |
This package provides methods of fitting bivariate lines in allometry using the major axis (MA) or standardised major axis (SMA), and for making inferences about such lines. The available methods of inference include confidence intervals and one-sample tests for slope and elevation, testing for a common slope or elevation amongst several allometric lines, constructing a confidence interval for a common slope or elevation, and testing for no shift along a common axis, amongst several samples.
The key functions in this package are sma
and
ma
, which will fit SMA and MA respectively, and construct
confidence intervals or test hypotheses about slope or elevation in one or
several samples, depending on how the arguments are used.
For example:
sma(y~x)
will fit a SMA for y
vs x
, and report
confidence intervals for the slope and elevation.
sma(y~x, robust=T)
will fit a robust SMA for y
vs x
using Huber's M estimation, and will report (approximate) confidence
intervals for the slope and elevation.
ma(y~x*groups-1)
will fit MA lines for y
vs x
that are
forced through the origin, where a separate MA is fitted to each of several
samples as specified by the argument groups
. It will also report
results from a test of the hypothesis that the true MA slope is equal across
all samples.
For more details, see the help listings for sma
and
ma
.
Note that the sma
and ma
functions replace the
functions given in earlier package versions as line.cis
,
slope.test
, elev.test
, slope.com
,
elev.com
and shift.com
, although all of these
functions and their help entries are still available.
All procedures have the option of correcting for measurement error, although only in an approximate fashion, valid in large samples.
Additional features of this package are listed below.
Estimates the average variance matrix of measurement error for a set of subjects with repeated measures
Example datasets:
leaf longevity and leaf
mass per area for plant species from different sites. Used to demonstrate
the functionality of the sma
and ma
functions.
leaf mass per area and photosynthetic rate for plant species from different sites. Used to demonstrate the meas.est function
For more details, see the documentation for any of the individual functions listed above.
Warton, D. David.Warton@unsw.edu.au, Duursma, R., Falster, D. and Taskinen, S.
Warton D. I. and Weber N. C. (2002) Common slope tests for bivariate structural relationships. Biometrical Journal 44, 161–174.
Warton D. I., Wright I. J., Falster D. S. and Westoby M. (2006) A review of bivariate line-fitting methods for allometry. Biological Reviews 81, 259–291.
Taskinen S. and Warton D. I. (in press) Robust estimation and inference for bivariate line-fitting in allometry. Biometrical Journal.
sma
,ma
, meas.est
,
leaflife
, leafmeas
# See ?sma and ?plot.sma for a full list of examples.
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