The interplay between seasonality and density: consequences for female breeding decisions in a small cyclic herbivore

Background: Cyclic rodent population dynamics are subjected to both intrinsic regulatory processes such as density-dependence and extrinsic environmental forcing. Among extrinsic factors, seasonal environmental variation is understood to facilitate cycles. In rodents, these processes have been studi...

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Bibliographic Details
Published in:BMC Ecology
Main Authors: Gauffre, Bertrand, Bretagnolle, Vincent
Other Authors: Pinot, Adrien
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Seasonality;Population cycles;Common vole;Density-dependence;Fecundity
saisonnalité
cycle de population
densité dépendance
fécondite
microtus arvalis
Common vole
Microtus arvalis
Online Access:http://prodinra.inra.fr/ft/8D0B4C95-7283-4EED-B9E1-B140B27D1D9D
http://prodinra.inra.fr/record/278965
https://doi.org/10.1186/1472-6785-14-17
Description
Summary:Background: Cyclic rodent population dynamics are subjected to both intrinsic regulatory processes such as density-dependence and extrinsic environmental forcing. Among extrinsic factors, seasonal environmental variation is understood to facilitate cycles. In rodents, these processes have been studied mostly independently and their relative importance for population dynamics is poorly known. [br/] Results: We performed a detailed analysis of common vole (Microtus arvalis) reproduction in a cyclic population using a spatially extensive data set over 17 years in central-western France. Environmental seasonality was the main source of explained variation in common vole reproduction. Additionally, inter-annual variation in the environment explained a smaller part of the variance in reproduction in spring and summer than in winter, whereas the effect of density was only found in autumn and winter. In particular, we detected a strong impact of plant productivity on fecundity during the breeding season, with low vegetation productivity being able to bring vole reproduction nearly to a halt. In contrast, vole reproduction during autumn and winter was mainly shaped by intrinsic factors, with only the longer and heavier females being able to reproduce. The effect of population density on reproduction was negative, mediated by direct negative effects on the proportion of breeders in autumn and winter during outbreak years and by a delayed negative effect on litter size the following year. [br/] Conclusions: During the main breeding season, variability of female vole reproduction is predominantly shaped by food resources, suggesting that only highly productive environment may induce vole outbreaks. During fall and winter, variability of female vole reproduction is mainly controlled by intrinsic factors, with high population density suppressing reproduction. This suggests, in this cyclic population, that negative direct density dependence on reproduction could explain winter declines after outbreaks.

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