Document Type
Article
Publication Date
9-1-2011
Keywords
Bifurcation, Cannibalism, Discrete-time model, Gull colony, Ovulation synchrony
Abstract
Spontaneous oscillator synchrony is a form of self-organization in which populations of interacting oscillators ultimately cycle together. This phenomenon occurs in a wide range of physical and biological systems. In rats and humans, oestrous/menstrual cycles synchronize through social stimulation with pheromones acting as synchronizing signals. In previous work, we showed that glaucous-winged gulls (Larus glaucescens) can lay eggs synchronously on an every-other-day schedule, and that synchrony increases with colony density. We posed a discrete-time mathematical model for reproduction during the breeding season based on the hypothesis that pre-ovulatory luteinizing hormone surges synchronize by means of visual, auditory and/or olfactory cues. Here, we extend the seasonal model in order to investigate the effect of ovulation synchrony on population dynamics across reproductive seasons. We show that socially stimulated ovulation synchrony can enhance total population size and allow the population to persist at lower birth rates than would otherwise be possible. © 2011 Taylor & Francis.
Journal Title
Journal of Biological Dynamics
Volume
5
Issue
5
First Page
495
Last Page
516
DOI
https://doi.org/10.1080/17513758.2010.529168
First Department
Mathematics
Second Department
Biology
Recommended Citation
Henson, Shandelle M.; Cushing, J. M.; and Hayward, James L., "Socially Induced Ovulation Synchrony and its Effect on Seabird Population Dynamics" (2011). Faculty Publications. 1685.
https://digitalcommons.andrews.edu/pubs/1685
Acknowledgements
Retrieved February 3, 2010 from https://www.tandfonline.com/doi/full/10.1080/17513758.2010.529168