Relative size influences gender role in the freshwater hermaphroditic snail, Helisoma trivolvis

doi:10.1093/beheco/arn099

Behavioral Ecology Advance Access published online on August 12, 2008
Behavioral Ecology, doi:10.1093/beheco/arn099

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© The Author 2008. Published by Oxford University Press on behalf of the International Society for Behavioral Ecology. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Relative size influences gender role in the freshwater hermaphroditic snail, Helisoma trivolvis

Cynthia G. Norton, Angela F. Johnson and Rebecca L. Mueller

Biology Department, College of St Catherine, 2004 Randolph Avenue, St Paul, MN 55105, USA

Address correspondence to C.G. Norton, Biology Department, Mail No. 4186, College of St Catherine, 2004 Randolph Avenue, St Paul, MN 55105, USA. E-mail: cgnorton{at}stkate.edu.

Abstract

Simultaneous hermaphrodites have the unique challenge of allocatingtheir available resources to egg and sperm production and behaviorallyto a male and/or female mating role. Models that address theinfluence of body size on sex allocation predict that largerindividuals should allocate proportionally more resources tofemale than male function and that this should translate intocorresponding behavioral preferences during mating. We investigatedthe relationship between size and gender role in the hermaphroditicfreshwater snail Helisoma trivolvis. We hypothesized that when2 H. trivolvis mate, the larger would assume the female roleand the smaller the male role. We also predicted that reciprocalmating would be more likely when partners were similar in size.We measured 180 snails, paired them, and observed their sexroles during copulation. The size difference between snailsneither influenced the latency to copulation nor predicted whethermating was unilateral or reciprocal. In unilateral matings,the smaller snail acted as the male significantly more oftenthan the larger snail. In order to test the hypothesis thatincreased activity of smaller snails influences gender role,we also measured movement rates in snails of various sizes butfound no relationship between size and activity. These experimentsindicate that in H. trivolvis body size does influence genderrole in unilateral matings, and enable us to rule out activityas a direct determinant of male gender role. Whether snailsmate reciprocally or not may depend on other factors such asprevious mating history, time of isolation, or age.

Key words: freshwater snails, gender role, Helisoma trivolvis, sex allocation, simultaneous hermaphrodite.

Received 22 June 2007; revised 23 June 2008; accepted 11 July 2008.

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