Mating Systems and Sexual Selection in Male-Pregnant Pipefishes and Seahorses: Insights from Microsatellite-Based Studies of Maternity

doi:10.1093/jhered/92.2.150

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The Journal of Heredity 2001:92(2)
© 2001 The American Genetic Association 92:150-158

Mating Systems and Sexual Selection in Male-Pregnant Pipefishes and Seahorses: Insights from Microsatellite-Based Studies of Maternity

A. G. Jones, and J. C. Avise

From the Zoology Department, 3029 Cordley Hall, Oregon State University, Corvallis, OR 97331 (Jones), and Genetics Department, University of Georgia, Athens, Georgia (Avise).

Address correspondence to Adam G. Jones at the address above or e-mail: jonesa{at}bcc.orst.edu.

In pipefishes and seahorses (family Syngnathidae), the malesprovide all postzygotic care of offspring by brooding embryoson their ventral surfaces. In some species, this phenomenonof male "egnancy" results in a reversal of the usual directionof sexual selection, such that females compete more than malesfor access to mates, and secondary sexual characteristics evolvein females. Thus the syngnathids can provide critical testsof theories related to the evolution of sex differences andsexual selection. Microsatellite-based studies of the geneticmating systems of several species of pipefishes and seahorseshave provided insights into important aspects of the naturalhistory and evolution of these fishes. First, males of specieswith completely enclosed pouches have complete confidence ofpaternity, as might be predicted from parental investment theoryfor species in which males invest so heavily in offspring. Second,a wide range of genetic mating systems have been documentedin nature, including genetic monogamy in a seahorse, polygynandryin two species of pipefish, and polyandry in a third pipefishspecies. The genetic mating systems appear to be causally relatedto the intensity of sexual selection, with secondary sex charactersevolving most often in females of the more polyandrous species.Third, genetic studies of captive-breeding pipefish suggestthat the sexual selection gradient (or Bateman gradient) maybe a substantially better method for characterizing the matingsystem than previously available techniques. Finally, thesegenetic studies of syngnathid mating systems have led to somegeneral insights into the occurrence of clustered mutationsat microsatellite loci, the utility of linked loci in studiesof parentage, and the use of parentage data for direct estimationof adult population size.

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