Patterns of Mating-system Evolution in Hermaphroditic Animals: Correlations Among Selfing Rate, Inbreeding Depression, and the Timing of Reproduction

Overview

Journal Evolution

Publisher Oxford University Press

Specialty Biology

Date 2011 Apr 28

PMID 21521187

Citations 38

Authors

Juan S Escobar

Josh R Auld

Ana C Correa

Juan M Alonso

Yves K Bony

Marie-Agnes Coutellec

Joris M Koene

Jean-Pierre Pointier

Philippe Jarne

Patrice David

Affiliations

Soon will be listed here.

Abstract

In hermaphrodites, traits that influence the selfing rate can coevolve with inbreeding depression, leading to the emergence of evolutionary syndromes. Theory predicts a negative correlation between inbreeding depression and selfing rate across species. This prediction has only been examined and validated in vascular plants. Furthermore, selfing rates are often influenced by environmental conditions (e.g., lack of mates or pollinators), and species are predicted to evolve mechanisms to buffer this variation. We extend previous studies of mating-system syndromes in two ways. First, we assembled a new dataset on Basommatophoran snails (17 species, including new data on 12 species). Second, we measured how species responded to variation in mate availability. Specifically, we quantified the waiting time before selfing (i.e., how long the onset of reproduction is delayed in the absence of mates). Selfing rates were negatively correlated with both inbreeding depression and the waiting time. Species with stronger inbreeding depression exhibited longer waiting times. These patterns obtained on Basommatophorans still hold when including eight other hermaphroditic animals. Our results support the hypothesis that selection drives the evolution of mating-system syndromes in animals. The reaction norm of selfing rates to mate availability is a key target of natural selection in this context.

Citing Articles

Mating system of a vector of .

Olson J, Pennance T, Spaan J, Odiere M, Tennessen J, Steinauer M Curr Res Parasitol Vector Borne Dis. 2025; 7:100241.

PMID: 39877402 PMC: 11772146. DOI: 10.1016/j.crpvbd.2025.100241.

The genome of the simultaneously hermaphroditic snail Lymnaea stagnalis reveals an evolutionary expansion of FMRFamide-like receptors.

Koene J, Jackson D, Nakadera Y, Cerveau N, Madoui M, Noel B Sci Rep. 2024; 14(1):29213.

PMID: 39587195 PMC: 11589774. DOI: 10.1038/s41598-024-78520-1.

Population genetic structure in a self-compatible hermaphroditic snail is driven by drift independently of its contemporary mating system.

Cetin C, Jokela J, Feulner P, Schlegel T, Tardent N, Seppala O Ecol Evol. 2024; 14(8):e70162.

PMID: 39139911 PMC: 11319733. DOI: 10.1002/ece3.70162.

Dominant gingers - Discovery and inheritance of a new shell polymorphism in the great pond snail .

Ledder M, Nakadera Y, Staikou A, Koene J Ecol Evol. 2023; 13(12):e10678.

PMID: 38077508 PMC: 10701294. DOI: 10.1002/ece3.10678.

Propensity for selfing varies within a population of hermaphroditic snails: coexistence of selfers, outcrossers and mixed-mating individuals.

Felmy A, Streiff A, Jokela J R Soc Open Sci. 2023; 10(10):230532.

PMID: 37800152 PMC: 10548103. DOI: 10.1098/rsos.230532.