Male Pregnancy in Seahorses and Pipefishes (Family Syngnathidae): Rapid Diversification of Paternal Brood Pouch Morphology Inferred From a Molecular Phylogeny

doi:10.1093/jhered/92.2.159

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The Journal of Heredity 2001:92(2)
© 2001 The American Genetic Association 92:159-166

Male Pregnancy in Seahorses and Pipefishes (Family Syngnathidae): Rapid Diversification of Paternal Brood Pouch Morphology Inferred From a Molecular Phylogeny

A. B. Wilson, A. Vincent, I. Ahnesjö, and A. Meyer

From the Department of Biology, University of Konstanz, Universit;auatstrasse 10, Konstanz 78457, Germany (Wilson and Meyer), Department of Biology, McGill University, Montreal, Quebec, Canada (Vincent), and Department of Animal Ecology, Uppsala University, Uppsala, Sweden (Ahnesjö).

Address correspondence to Axel Meyer at the address above or e-mail: axel.meyer{at}uni-konstanz.de.

In contrast to the majority of vertebrate species, primary maleparental care is common in fishes and encompasses a remarkablediversity of adaptations. Seahorses and pipefishes (Family Syngnathidae)exhibit some of the most specialized forms of paternal carein animals and so are ideally suited to the study of the evolutionof male parental care. During mating, female syngnathids transfereggs to specialized morphological structures that are locatedon either the abdomen or tail of the male. The male providesall postfertilization parental care and has morphological andphysiological adaptations to osmoregulate, aerate, and evennourish the developing embryos. While all syngnathid speciesare adapted for paternal care, the brooding structure with whichthis is accomplished varies between species, from simple ventralgluing areas to much more complex structures such as the completelyenclosed pouches of the seahorses. Our combined cytochrome b-,12S rDNA-, and 16S rDNA-based molecular phylogeny of syngnathidfishes demonstrates that rapid diversification of male broodingstructures has been associated with the major evolutionary radiationof the group, suggesting that development and diversificationof structures involved in paternal care may have been key evolutionaryinnovations of the Syngnathidae. Molecular analyses also highlightgeographical centers of biodiversity and suggest interoceanicmigration of Syngnathus pipefishes from their center of originin the Pacific.

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