Phylogenetic relationships of the dwarf boas and a comparison of Bayesian and bootstrap measures of phylogenetic support

Four New World genera of dwarf boas ( Exiliboa, Trachyboa, Tropidophis, and Ungaliophis) have been placed by many systematists in a single group (traditionally called Tropidophiidae). However, the monophyly of this group has been questioned in several studies. Moreover, the overall relationships amo...

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Bibliographic Details
Published in:Molecular phylogenetics and evolution 2002-11, Vol.25 (2), p.361-371
Main Authors: Wilcox, Thomas P., Zwickl, Derrick J., Heath, Tracy A., Hillis, David M.
Format: Article
Language:English
Subjects:
Animals
Bayes Theorem
Bayesian analysis
Boidae - genetics
Booidea
Bootstrapping
Caenophidea
Data Interpretation, Statistical
Dwarf boas
Exiliboa
Likelihood Functions
Macrostomata
Mitochondria - genetics
Phylogenetic support
Phylogeny
RNA, Ribosomal - genetics
RNA, Ribosomal, 16S - genetics
Serpentes
Snakes
Trachyboa
Tropidophiidae
Tropidophis
Ungaliophiidae
Ungaliophis
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Summary:Four New World genera of dwarf boas ( Exiliboa, Trachyboa, Tropidophis, and Ungaliophis) have been placed by many systematists in a single group (traditionally called Tropidophiidae). However, the monophyly of this group has been questioned in several studies. Moreover, the overall relationships among basal snake lineages, including the placement of the dwarf boas, are poorly understood. We obtained mtDNA sequence data for 12S, 16S, and intervening tRNA–val genes from 23 species of snakes representing most major snake lineages, including all four genera of New World dwarf boas. We then examined the phylogenetic position of these species by estimating the phylogeny of the basal snakes. Our phylogenetic analysis suggests that New World dwarf boas are not monophyletic. Instead, we find Exiliboa and Ungaliophis to be most closely related to sand boas (Erycinae), boas (Boinae), and advanced snakes (Caenophidea), whereas Tropidophis and Trachyboa form an independent clade that separated relatively early in snake radiation. Our estimate of snake phylogeny differs significantly in other ways from some previous estimates of snake phylogeny. For instance, pythons do not cluster with boas and sand boas, but instead show a strong relationship with Loxocemus and Xenopeltis. Additionally, uropeltids cluster strongly with Cylindrophis, and together are embedded in what has previously been considered the macrostomatan radiation. These relationships are supported by both bootstrapping (parametric and nonparametric approaches) and Bayesian analysis, although Bayesian support values are consistently higher than those obtained from nonparametric bootstrapping. Simulations show that Bayesian support values represent much better estimates of phylogenetic accuracy than do nonparametric bootstrap support values, at least under the conditions of our study.
ISSN:1055-7903
1095-9513
DOI:10.1016/S1055-7903(02)00244-0