More Taxa, More Characters: The Hoatzin Problem Is Still Unresolved

doi:10.1093/molbev/msg157

MBE Advance Access originally published online on May 30, 2003

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Mol. Biol. Evol. 20(9):1484-1498. 2003
DOI: 10.1093/molbev/msg157
© 2003 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

More Taxa, More Characters: The Hoatzin Problem Is Still Unresolved

Michael D. Sorenson^*^,^,, Elen Oneal^*^,1, Jaime García-Moreno^,2 and David P. Mindell^,

^* Department of Biology, Boston University
Museum of Zoology
Department of Ecology and Evolutionary Biology, University of Michigan

E-mail: msoren{at}bu.edu.

The apparently rapid and ancient diversification of many avianorders complicates the resolution of their relationships usingmolecular data. Recent studies based on complete mitochondrialDNA (mtDNA) sequences or shorter lengths of nuclear sequencehave helped corroborate the basic structure of the avian tree(e.g., a basal split between Paleognathae and Neognathae) buthave made relatively little progress in resolving relationshipsamong the many orders within Neoaves. We explored the potentialof a moderately sized mtDNA data set ( $~$ 5,000 bp for each of 41taxa), supplemented with data from a nuclear intron ( $~$ 700 bpper taxon), to resolve relationships among avian orders. Oursampling of taxa addresses two issues: (1) the sister relationshipand monophyly, respectively, of Anseriformes and Galliformesand (2) relationships of the enigmatic hoatzin Opisthocomushoazin. Our analyses support a basal split between Galloanseraeand Neoaves within Neognathae and monophyly of both Galliformesand Anseriformes. Within Galliformes, megapodes and then cracidsbranch basally. Within Anseriformes, mitochondrial data supporta screamer (Anhimidae) plus magpie goose (Anseranatidae) clade.This result, however, may be an artifact of divergent base compositionin one of the two anatids we sampled. With deletion of the lattertaxon, Anseranas is sister to anatids as in traditional arrangementsand recent morphological studies. Although our data providelimited resolution of relationships within Neoaves, we findno support for a sister relationship between either cuckoos(Cuculiformes) or turacos (Musophagiformes) and hoatzin. Bothmitochondrial and nuclear data are consistent with a relationshipbetween hoatzin and doves (Columbiformes), although this resultis weakly supported. We also show that mtDNA sequences reportedin another recent study included pervasive errors that biasedthe analysis towards finding a sister relationship between hoatzinand turacos.

Key Words: Anseriformes • avian systematics • Galliformes • Galloanserae • Neoaves • Opisthocomus hoazin

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