Indirect effect of climate change: Shifts in ratsnake behavior alter intensity and timing of avian nest predation

Authored by Brett A DeGregorio, James D Westervelt, Patrick J Weatherhead, Jinelle H Sperry

Date Published: 2015

DOI: 10.1016/j.ecolmodel.2015.05.031

Sponsors: No sponsors listed

Platforms: NetLogo

Model Documentation: ODD

Model Code URLs: http://www.sciencedirect.com.ezproxy1.lib.asu.edu/science/MiamiMultiMediaURL/1-s2.0-S0304380015002379/1-s2.0-S0304380015002379-mmc2.zip/271743/html/S0304380015002379/0755c788d98452ace175d00bb9a2fa4e/mmc2.zip

Abstract

Understanding how climate change will affect the abundance, distribution, and behavior of wildlife has garnered substantial attention, but predicting how climate change may alter interspecific relationships is more challenging and has received less attention. Here, we use agent-based modeling to explore how climate warming may alter activity patterns and habitat use of ratsnakes and how this will change their interactions with nesting birds. Overall nest predation by ratsnakes increased with warming environmental temperatures, with a 7\% increase in daily nest predation as temperatures warmed by 2 degrees C. Modest increases in ambient temperature (0.5 degrees C) caused nocturnal predation by ratsnakes to increase by 15\%, particularly in the early spring (200\% increase in nocturnal nest predation in March) when nocturnal snake activity is currently limited. Increased nocturnal nest predation can have important demographic consequences beyond nest failure when adult birds on the nest are vulnerable to snakes. Increased temperatures also caused nest predation to increase substantially in forest and forest edge habitats. In a warming world ratsnakes are predicted to use forested habitats more because the thermal heterogeneity of forests buffers snakes against potentially lethal environmental temperatures. If ratsnakes become more concentrated in small forest patches and edges, nest survival in these patches may fall below a sustainable level. Conversely, as temperatures increase, ratsnakes will be less likely to prey on nests in open habitats such as shrublands, which may provide refuges for some nesting birds. Species conservation in a warming world requires understanding how the behavior of both the focal species and its predators are affected. Published by Elsevier B.V.

Tags

selection movements Habitat use population patterns birds Success Black rat snakes Elaphe-obsoleta-obsoleta Thermoregulation