Mate choice and its evolutionary consequences in intertidal snails (Littorina spp.)
Abstract
The ability to recognise potential mates and choose the best possible partner for reproduction is of fundamental importance for most animal species. This thesis presents studies of mate choice in marine snails of the genus Littorina, where male precopulatory mate choice seems to be more predominant than female precopulatory choice. Male mate choice starts already when the male choose (or not) to follow another individual’s mucus trail, which is deposited during locomotion. Trailfollowing is a central part of this thesis and gastropod trail- following in general has been thoroughly reviewed in one of the chapters. Both trail-following and copulations have been studied in several experiments to depict male mate choice and the consequences of mate choice on reproductive barriers between ecotypes (of L. fabalis) and sister-species (L. fabalis and L. obtusata).
Mate choice does not always stop with a completed copulation. In species where females mate with multiple males there is a chance for cryptic mechanisms to act after copulation through cryptic female mate choice and/or sperm competition. In one of the chapters paternity distribution among offspring of females of L. saxatilis was studied, using genetic tools, and laboratory-raised families with known parents. Paternity was not randomly distributed among the fathers contributing to offspring production, indicating postcopulatory sexual selection either by cryptic female choice and/or sperm competition.
Convenience polyandry has been suggested as an explanation for the apparent lack of female precopulatory mate choice and the extreme promiscuity in L. saxatilis. In this species we found that females try to reduce the number of costly matings by removing cues from their mucus trails, to avoid advertising their sex as females of closely related species do. Thus males are forced to search blindly for mates following male- and female mucus trails indiscriminately, consequently reducing
male-female encounters and costs of superfluous matings for the female.
This thesis contributes to new insights on mate choice and its effects on reproductive barriers in Littorina, and adds to our understanding of the evolution of
new species.
Parts of work
Paper I. Terence P. T. Ng, Sara H. Saltin, Mark S. Davies, Kerstin Johannesson, Richard Stafford, Gray A. Williams (2013). Snails and their trails: the multiple
functions of trail-following in gastropods, Biological Reviews. ::doi::10.1111/brv.12023 Paper II. Sara H. Saltin, Hanna Schade, Kerstin Johannesson (2013). Males’ preference for large females cause a partial mating barrier between a large and a small
ecotype of the marine snail Littorina fabalis (W. Turton, 1825), Journal of Molluscan Studies, 78. ::doi::10.1093/mollus/eyt003 Paper III. Sara H. Saltin, Eva-Lotta Blom and Kerstin Johannesson (Manuscript). Male mate preference in conflict with species recognition in a trail-tracking gastropod. Paper IV. Sara H. Saltin, Gregory Charrier, Marina Panova, Anna-Karin Ring, Carl André, Kerstin Johannesson (Manuscript). Postcopulatory sexual selection in a highly promiscuous snail (Littorina saxatilis). Paper V: Kerstin Johannesson, Sara H. Saltin, Iris Duranovic, Jon N. Havenhand, Per R. Jonsson (2010). Indiscriminate males: mating behaviour of a marine snail compromised by a sexual conflict? Plos One, 5: e12005. ::doi::10.1371/journal.pone.0012005
Degree
Doctor of Philosophy
University
University of Gothenburg. Faculty of Science
Institution
Department of Biological and Environmental Sciences ; Institutionen för biologi och miljövetenskap
Disputation
Fredagen den 26 april kl. 9.00 i Hörsalen, Lovéncentret –Tjärnö, Strömstad, Institutionen för biologi och miljövetenskap, Hättebäcksvägen 7, 452 96 Strömstad.
Date of defence
2013-04-26
sara.hintz-saltin@bioenv.gu.se
Date
2013-05-06Author
Hintz Saltin, Sara
Keywords
reproductive barriers
polyandry
trail-following
mate preference
sexual selection
postcopulatory sexual selection
evolution
promiscuity
Publication type
Doctoral thesis
ISBN
91-89677-56-0
Language
eng