Molecular Phylogenetics and Evolutionary Diversification of Labyrinth Fishes (Perciformes: Anabantoidei)

doi:10.1080/10635150500541664

Systematic Biology 2006 55(3):374-397; doi:10.1080/10635150500541664

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Molecular Phylogenetics and Evolutionary Diversification of Labyrinth Fishes (Perciformes: Anabantoidei)

Lukas Rüber¹^,2, Ralf Britz¹ and Rafael Zardoya²

¹ Department of Zoology, The Natural History Museum Cromwell Road London SW7 5BD UK (L.R.) E-mail: l.ruber{at}nhm.ac.uk
² Departamento de Biodiversidad y Biología Evolutiva, Museo Nacional de Ciencias Naturales José Gutiérrez Abascal 2Madrid 28006 Spain

Edited by Peter Linder: Associate Editor

Abstract

Labyrinth fishes (Perciformes: Anabantoidei) are primary freshwaterfishes with a disjunct African-Asian distribution that exhibita wide variety of morphological and behavioral traits. Theseintrinsic features make them particularly well suited for studyingpatterns and processes of evolutionary diversification. We reconstructedthe first molecular-based phylogenetic hypothesis of anabantoidintrarelationships using both mitochondrial and nuclear nucleotidesequence data to address anabantoid evolution. The mitochondrialdata set included the complete cytochrome b, partial 12S rRNA,complete tRNA Val, and partial 16S rRNA genes (3332 bp) of 57species representing all 19 anabantoid genera. The nuclear dataset included the partial RAG1 gene (1494 bp) of 21 representativespecies. The phylogenetic analyses of a combined (mitochondrial+ nuclear) data set recovered almost fully resolved trees atthe intrafamily level with different methods of phylogeneticinference. Phylogenetic relationships at this taxonomic levelwere compared with previous morphology-based hypotheses. Inparticular, the enigmatic pike-head (Luciocephalus) was confidentlyplaced within the "spiral egg" clade, thus resolving the long-standingcontroversy on its relative phylogenetic position. The molecularphylogeny was used to study the evolution of the different formsof parental care within the suborder. Our results suggest thatthe evolution of breeding behavior in anabantoids is highlycorrelated with phylogeny, and that brood care evolved threetimes independently from an ancestral free spawning conditionwithout parental care. Ancestral character state reconstructionsunder maximum parsimony and maximum likelihood further indicatedthat both bubble nesting and mouthbrooding have evolved recurrentlyduring anabantoid evolution. The new phylogenetic frameworkwas also used to test alternative biogeographic hypotheses thataccount for the disjunct African-Asian distribution. Moleculardivergence time estimates support either a drift vicariancelinked to the breakup of Gondwana or Late Mesozoic Early Tertiarydispersal from Africa to Asia or vice versa.

Keywords: Ancestral character state reconstruction; breeding behavior; divergence time estimation; biogeography

Received February 25, 2005; Revised July 12, 2005; Accepted October 24, 2005
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