Mitochondrial Phylogenetics and Evolution of Mysticete Whales

The phylogenetic relationships among baleen whales (Order: Cetacea) remain uncertain despite extensive research in cetacean molecular phylogenetics and a potential morphological sample size of over 2 million animals harvested. Questions remain regarding the number of species and the monophyly of gen...

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Bibliographic Details
Published in:Systematic biology 2005-02, Vol.54 (1), p.77-90
Main Authors: Sasaki, Takeshi, Nikaido, Masato, Hamilton, Healy, Goto, Mutsuo, Kato, Hidehiro, Kanda, Naohisa, Pastene, Luis A., Cao, Ying, Fordyce, R. Ewan, Hasegawa, Masami, Okada, Norihiro, Sullivan, Jack
Format: Article
Language:English
Subjects:
Ancestral polymorphism
Animal fins
Animals
Balaenidae
Balaenopteridae
Baleen
baleen whale
Base Sequence
Biological taxonomies
Cetacea
DNA Primers
DNA, Mitochondrial - genetics
Eschrichtiidae
Evolution
Evolution, Molecular
Evolutionary biology
Fossils
Genomes
Genomics
Likelihood Functions
Marine
Mitochondrial DNA
Models, Genetic
molecular clock
Molecular Sequence Data
Mysticetes
Mysticeti
Neobalaenidae
Phylogenetics
Phylogeny
Sequence Analysis, DNA
Species Specificity
Whales
Whales & whaling
Whales - classification
Whales - genetics
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Summary:The phylogenetic relationships among baleen whales (Order: Cetacea) remain uncertain despite extensive research in cetacean molecular phylogenetics and a potential morphological sample size of over 2 million animals harvested. Questions remain regarding the number of species and the monophyly of genera, as well as higher order relationships. Here, we approach mysticete phylogeny with complete mitochondrial genome sequence analysis. We determined complete mtDNA sequences of 10 extant Mysticeti species, inferred their phylogenetic relationships, and estimated node divergence times. The mtDNA sequence analysis concurs with previous molecular studies in the ordering of the principal branches, with Balaenidae (right whales) as sister to all other mysticetes base, followed by Neobalaenidae (pygmy right whale), Eschrichtiidae (gray whale), and finally Balaenopteridae (rorquals + humpback whale). The mtDNA analysis further suggests that four lineages exist within the clade of Eschrichtiidae + Balaenopteridae, including a sister relationship between the humpback and fin whales, and a monophyletic group formed by the blue, sei, and Bryde's whales, each of which represents a newly recognized phylogenetic relationship in Mysticeti. We also estimated the divergence times of all extant mysticete species, accounting for evolutionary rate heterogeneity among lineages. When the mtDNA divergence estimates are compared with the mysticete fossil record, several lineages have molecular divergence estimates strikingly older than indicated by paleontological data. We suggest this discrepancy reflects both a large amount of ancestral polymorphism and long generation times of ancestral baleen whale populations.
ISSN:1063-5157
1076-836X
DOI:10.1080/10635150590905939