Author:
Tyler N. J. C.,Post E.,Hazlerigg D. G.
Abstract
AbstractBioenergetic constraints are the ultimate determinant of the timing of reproduction, and seasonal breeding is consequently a widely observed trait. Consistent with this, attention has focused on plasticity in reproductive phenology conceptualized as a response to concomitant advances in the phenology of the environmental energy supply caused by climate change. Few studies, however, have directly compared timing of reproduction with energetic status in free-living wild animals. Here we demonstrate that neither body mass nor adiposity are strong proximate predictors of date of conception in wild reindeer (Rangifer tarandus). Weak coupling between energetic status and the phenology of reproduction accounts for the increasing discrepancy between the phenology of forage (energy supply) and the phenology of reproduction (energy demand) observed across the last 2–4 decades in two populations of this species. The results emphasise that phenological plasticity is not a passive response to changes in energy supply but derives from the way in which environmental factors interact with the core control mechanisms that govern timing. Central in this respect is integration, within the rheostatic centres of the hypothalamus, of information on nutritional status with the circannual life-history calendar.
Funder
UiT The Arctic University of Norway
Publisher
Springer Science and Business Media LLC
Reference73 articles.
1. Marshall, F. H. A. The Croonian lecture. Sexual periodicity and the causes which determine it. Philos. Trans. R. Soc. B 226, 423–456 (1936).
2. Lincoln, G. A. A brief history of circannual time. J. Neuroendocrin. 31, e12694 (2019).
3. Visser, M. E. & Gienapp, P. Evolutionary and demographic consequences of phenological mismatches. Nat. Ecol. Evol. 3, 879–885 (2019).
4. Boutin, S. & Lane, J. E. Climate change and mammals: Evolutionary versus plastic responses. Evol. Appl. 7, 29–41 (2014).
5. Fox, R. J. et al. Beyond buying time: The role of plasticity in phenotypic adaptation to rapid environmental change. Philos. Trans. R. Soc. B 374, 20180174 (2019).