Partitioned likelihood support and the evaluation of data set conflict


Autoria(s): Lee, M. S. Y.; Hugall, A. F.
Data(s)

01/01/2003

Resumo

In simultaneous analyses of multiple data partitions, the trees relevant when measuring support for a clade are the optimal tree, and the best tree lacking the clade (i.e., the most reasonable alternative). The parsimony-based method of partitioned branch support (PBS) forces each data set to arbitrate between the two relevant trees. This value is the amount each data set contributes to clade support in the combined analysis, and can be very different to support apparent in separate analyses. The approach used in PBS can also be employed in likelihood: a simultaneous analysis of all data retrieves the maximum likelihood tree, and the best tree without the clade of interest is also found. Each data set is fitted to the two trees and the log-likelihood difference calculated, giving partitioned likelihood support (PLS) for each data set. These calculations can be performed regardless of the complexity of the ML model adopted. The significance of PLS can be evaluated using a variety of resampling methods, such as the Kishino-Hasegawa test, the Shimodiara-Hasegawa test, or likelihood weights, although the appropriateness and assumptions of these tests remains debated.

Identificador

http://espace.library.uq.edu.au/view/UQ:66939

Idioma(s)

eng

Publicador

Taylor & Francis Inc

Palavras-Chave #Evolutionary Biology #Artiodactyls #Cetaceans #Kishino-hasegawa Test #Partitioned Branch Support #Partitioned Likelihood Support #Shimodaira-hasegawa Test #Templeton Test #Mitochondrial-dna Sequences #Phylogenetic-relationships #Maximum-likelihood #Statistical Tests #Molecular-data #Extant Taxa #Evolution #Inference #Substitution #Characters #C1 #270402 Plant Physiology #620302 Softwood plantations
Tipo

Journal Article