Abstract
Edwards, P. D., Frenette-Ling, C., Palme, R., & Boonstra, R. (2021). Social density suppresses GnRH expression and reduces reproductivity in voles: A mechanism for population self-regulation. Journal of Animal Ecology, 90, 784-795. Intrinsic population processes are important in the regulation of populations of small rodents, including those which display multiannual cycles. By measuring reproductive parameters, faecal androgen metabolites, and gene expression and DNA methylation in the CNS of juvenile voles, this paper demonstrates that suppression of reproduction occurs in female voles at high density compared to low density in enclosures, and that this maternal, epigenetic effect is also apparent in their offspring. This suggsests that direct density dependence influences reproduction and, hence, immediate rate of population growth, while gene expression mediated by DNA methylation blocking transcription, may have a delayed density-dependent effect in juveniles. Both direct and delayed density dependence are necessary to generate multiannual population cycles. Edwards et al. (2021) break new ground in demonstrating the molecular and physiological basis of variation in population dynamics of small mammals ranging from multiannual cycles to stability that have fascinated researchers for nearly a century.
Highlights
The insights of Charles Elton (1924, 1942) concerning historical cycles of abundance in herbivores, especially small rodents and lagomorphs, initiated a major area of interest within the new discipline of animal ecology
Faecal androgen metabolites, and gene expression and DNA methylation in the CNS of juvenile voles, this paper demonstrates that suppression of reproduction occurs in female voles at high density compared to low density in enclosures, and that this maternal, epigenetic effect is apparent in their offspring
Immature voles removed at the end of each replicate were available to investigate expression of two candidate genes associated with hypothalamus and the medial amygdala, areas of the brain which are implicated in processing social stimuli, olfactory cues and defence
Summary
The insights of Charles Elton (1924, 1942) concerning historical cycles of abundance in herbivores, especially small rodents and lagomorphs, initiated a major area of interest within the new discipline of animal ecology. Social density suppresses GnRH expression and reduces reproductivity in voles: A mechanism for population self-regulation. Intrinsic population processes are important in the regulation of populations of small rodents, including those which display multiannual cycles.
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