X-Git-Url: https://git.donarmstrong.com/?a=blobdiff_plain;f=man%2FCADM.global.Rd;h=007918bd6259767d6cc734fce467280ae2dcb0d0;hb=dff741171e7afe3f9aaa2d9cb19c2f91995e8623;hp=05bf426f42469e478f7461007f6e719e4b0adad5;hpb=9fc53cd2b72b2fb95a9c0b203144b9bd065bb1a3;p=ape.git diff --git a/man/CADM.global.Rd b/man/CADM.global.Rd index 05bf426..007918b 100644 --- a/man/CADM.global.Rd +++ b/man/CADM.global.Rd @@ -68,35 +68,35 @@ If parameter \code{mantel} is TRUE, tables of Mantel statistics and P-values are \item{Mantel.prob }{One-tailed P-values associated with the Mantel correlations of the previous table. The probabilities are computed in the right-hand tail. H0 is tested against the alternative one-tailed hypothesis that the Mantel correlation under test is positive. No correction is made for multiple testing. } } -\references{ -Campbell, V., P. Legendre and F.-J. Lapointe. 2009. Assessing congruence among ultrametric distance matrices. Journal of Classification 26: 103-117. +\references{ +Campbell, V., Legendre, P. and Lapointe, F.-J. (2009) Assessing congruence among ultrametric distance matrices. \emph{Journal of Classification}, \bold{26}, 103--117. -Campbell, V., P. Legendre and F.-J. Lapointe. 2011. The performance of the Congruence Among Distance Matrices (CADM) test in phylogenetic analysis. BMC Evolutionary Biology 11: 64. http://www.biomedcentral.com/1471-2148/11/64. +Campbell, V., Legendre, P. and Lapointe, F.-J. (2011) The performance of the Congruence Among Distance Matrices (CADM) test in phylogenetic analysis. \emph{BMC Evolutionary Biology}, \bold{11}, 64. \url{http://www.biomedcentral.com/1471-2148/11/64}. -Friedman, M. 1937. The use of ranks to avoid the assumption of normality implicit in the analysis of variance. Journal of the American Statistical Association 32: 675-701. +Friedman, M. (1937) The use of ranks to avoid the assumption of normality implicit in the analysis of variance. \emph{Journal of the American Statistical Association}, \bold{32}, 675--701. -Kendall, M. G. and B. Babington Smith. 1939. The problem of m rankings. Annals of Mathematical Statistics 10: 275-287. +Kendall, M. G. and Babington Smith, B. (1939) The problem of m rankings. \emph{Annals of Mathematical Statistics}, \bold{10}, 275--287. -Lapointe, F.-J., J. A. W. Kirsch and J. M. Hutcheon. 1999. Total evidence, consensus, and bat phylogeny: a distance-based approach. Molecular Phylogenetics and Evolution 11: 55-66. +Lapointe, F.-J., Kirsch, J. A. W. and Hutcheon, J. M. (1999) Total evidence, consensus, and bat phylogeny: a distance-based approach. \emph{Molecular Phylogenetics and Evolution}, \bold{11}, 55--66. -Legendre, P. 2010. Coefficient of concordance. Pp. 164-169 in: Encyclopedia of Research Design, Vol. 1. N. J. Salkind, ed. SAGE Publications, Inc., Los Angeles. +Legendre, P. (2010) Coefficient of concordance. Pp. 164-169 in: Encyclopedia of Research Design, Vol. 1. N. J. Salkind, ed. SAGE Publications, Inc., Los Angeles. -Legendre, P. and F.-J. Lapointe. 2004. Assessing congruence among distance matrices: single malt Scotch whiskies revisited. Australian and New Zealand Journal of Statistics 46: 615-629. +Legendre, P. and Lapointe, F.-J. (2004) Assessing congruence among distance matrices: single malt Scotch whiskies +revisited. \emph{Australian and New Zealand Journal of Statistics}, \bold{46}, 615--629. -Legendre, P. et F.-J. Lapointe. 2005. Congruence entre matrices de distance. P. 178-181 in: Makarenkov, V., G. Cucumel et F.-J. Lapointe [eds] Comptes rendus des 12emes Rencontres de la Societe Francophone de Classification, Montreal, 30 mai - 1er juin 2005. +Legendre, P. and Lapointe, F.-J. (2005) Congruence entre matrices de distance. P. 178-181 in: Makarenkov, V., G. Cucumel et F.-J. Lapointe [eds] Comptes rendus des 12emes Rencontres de la Societe Francophone de Classification, Montreal, 30 mai - 1er juin 2005. -Siegel, S. and N. J. Castellan, Jr. 1988. Nonparametric statistics for the behavioral sciences. 2nd edition. McGraw-Hill, New York. +Siegel, S. and Castellan, N. J., Jr. (1988) \emph{Nonparametric statistics for the behavioral sciences. 2nd edition}. New York: McGraw-Hill. } -\author{ Pierre Legendre, Universite de Montreal } +\author{Pierre Legendre, Universite de Montreal} \examples{ - -# Examples 1 and 2: 5 genetic distance matrices computed from simulated DNA -# sequences representing 50 taxa having evolved along additive trees with -# identical evolutionary parameters (GTR+ Gamma + I). Distance matrices were -# computed from the DNA sequence matrices using a p distance corrected with the -# same parameters as those used to simulate the DNA sequences. See Campbell et +# Examples 1 and 2: 5 genetic distance matrices computed from simulated DNA +# sequences representing 50 taxa having evolved along additive trees with +# identical evolutionary parameters (GTR+ Gamma + I). Distance matrices were +# computed from the DNA sequence matrices using a p distance corrected with the +# same parameters as those used to simulate the DNA sequences. See Campbell et # al. (2009) for details. # Example 1: five independent additive trees. Data provided by V. Campbell. @@ -104,15 +104,15 @@ Siegel, S. and N. J. Castellan, Jr. 1988. Nonparametric statistics for the behav data(mat5Mrand) res.global <- CADM.global(mat5Mrand, 5, 50) -# Example 2: three partly similar trees, two independent trees. +# Example 2: three partly similar trees, two independent trees. # Data provided by V. Campbell. data(mat5M3ID) res.global <- CADM.global(mat5M3ID, 5, 50) res.post <- CADM.post(mat5M3ID, 5, 50, mantel=TRUE) -# Example 3: three matrices respectively representing Serological -# (asymmetric), DNA hybridization (asymmetric) and Anatomical (symmetric) +# Example 3: three matrices respectively representing Serological +# (asymmetric), DNA hybridization (asymmetric) and Anatomical (symmetric) # distances among 9 families. Data from Lapointe et al. (1999). data(mat3)