Morphological and Molecular Evidence for a Stepwise Evolutionary Transition from Teeth to Baleen in Mysticete Whales

doi:10.1080/10635150701884632

Systematic Biology 2008 57(1):15-37; doi:10.1080/10635150701884632

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Morphological and Molecular Evidence for a Stepwise Evolutionary Transition from Teeth to Baleen in Mysticete Whales

Thomas A. Deméré¹, Michael R. McGowen²^,3, Annalisa Berta² and John Gatesy³

¹ Department of Paleontology, San Diego Natural History Museum San Diego, California, 92112, USA; E-mail: tdemere{at}sdnhm.org
² Department of Biology, San Diego State University San Diego, California, 92182, USA
³ Department of Biology, University of California Riverside, California 92521, USA

Abstract

The origin of baleen in mysticete whales represents a majortransition in the phylogenetic history of Cetacea. This keyspecialization, a keratinous sieve that enables filter-feeding,permitted exploitation of a new ecological niche and heraldedthe evolution of modern baleen-bearing whales, the largest animalson Earth. To date, all formally described mysticete fossilsconform to two types: toothed species from Oligocene-age rocks( $~$ 24 to 34 million years old) and toothless species that presumablyutilized baleen to feed (Recent to $~$ 30 million years old). Here,we show that several Oligocene toothed mysticetes have nutrientforamina and associated sulci on the lateral portions of theirpalates, homologous structures in extant mysticetes house vesselsthat nourish baleen. The simultaneous occurrence of teeth andnutrient foramina implies that both teeth and baleen were presentin these early mysticetes. Phylogenetic analyses of a supermatrixthat includes extinct taxa and new data for 11 nuclear genesconsistently resolve relationships at the base of Mysticeti.The combined data set of 27,340 characters supports a stepwisetransition from a toothed ancestor, to a mosaic intermediatewith both teeth and baleen, to modern baleen whales that lackan adult dentition but retain developmental and genetic evidenceof their ancestral toothed heritage. Comparative sequence datafor ENAM (enamelin) and AMBN (ameloblastin) indicate that enamel-specificloci are present in Mysticeti but have degraded to pseudogenesin this group. The dramatic transformation in mysticete feedinganatomy documents an apparently rare, stepwise mode of evolutionin which a composite phenotype bridged the gap between primitiveand derived morphologies; a combination of fossil and molecularevidence provides a multifaceted record of this macroevolutionarypattern.

Keywords: ameloblastin (AMBN); baleen; enamelin (ENAM); evolution; filter-feeding; Mysticeti; whale

Received August 30, 2006; Revised November 9, 2006; Accepted September 13, 2007
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