Abstract
Climate change and other anthropogenic impacts are rapidly altering natural environmental periodicities on a variety of time scales. Despite this, a general theoretical foundation describing the role of periodic environmental variation in structuring species interactions and ecological communities is still underdeveloped. Alarmingly, this leaves us unprepared to understand and predict implications for the maintenance of biodiversity under global change. Here, we extend a two-species Lotka-Volterra competition model that incorporates periodic forcing between seasons of high and low production to investigate the effects of changing environmental patterns on species coexistence. Towards this, we define coexistence criteria for periodic environments by approximating isocline solutions akin to classical coexistence outcomes. This analytical approach illustrates that periodic environments (i.e., seasonality) in and of themselves can mediate different competitive outcomes, and these patterns are general across varying time scales. Importantly, species coexistence may be incredibly sensitive to changes in these abiotic periods, suggesting that climate change has the potential to drastically impact the maintenance of biodiversity in the future.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Email addresses *Alexa M Scott:(ascott16{at}uoguelph.ca) Carling Bieg (carling.bieg{at}gmail.com) Bailey C McMeans (bailey.mcmeans{at}utoronto.ca) Kevin S McCann (ksmccann{at}uoguelph.ca)
Updates to equation 7 of the Manuscript and equation 9 in the Supplementary Material S1. There are now 4 sections instead of 5 in the Supplementary Material.