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Data from: Consequences of mating and predation risk for longevity in a freshwater snail: Abstinence makes the heart beat longer

Cite this dataset

Auld, Josh R.; Helker, Adam D.; Kolpas, Allison (2016). Data from: Consequences of mating and predation risk for longevity in a freshwater snail: Abstinence makes the heart beat longer [Dataset]. Dryad. https://doi.org/10.5061/dryad.6sg82

Abstract

Senescence is not a static property of an individual or population, but rather it is a dynamic process that may be influenced by environmental conditions. This can occur in at least two ways: in the long-term across multiple generations, and in the short-term via phenotypic plasticity. The former has attracted a lot of attention, both theoretically and empirically; the latter has lagged behind. To determine whether two important environmental variables (predation risk and mate availability) affect the pattern of actuarial senescence (i.e., the increase in mortality with age), we reared 30 full-sib families of the simultaneously hermaphroditic freshwater snail Physa acuta under four different environmental conditions and tracked individuals until death. Individuals were reared in a 2x2 factorial experiment that manipulated the non-lethal presence of chemical cues from predatory crayfish (presence/absence) and the opportunity to mate with an unrelated partner (mated/not mated). Snails that receive a partner reproduce by outcrossing, while those that remain in isolation can reproduce by self-fertilization. We compared the cumulative survival curves to test for an effect of predation risk and mating. The hazard ratio for the predation-risk comparison was 1.042 indicating no significant difference between the curves. However, the hazard ratio for the mating comparison was 4.021, reflecting a significant reduction in survival probability for mated snails relative to isolated snails. As such, mating resulted in a much shorter lifespan, an outcome that we interpret in terms of shifting resource allocation.

Usage notes

Funding

National Science Foundation, Award: NSF DEB #1406231