Modeling the Incubation Microclimate to Predict Implications of Responses to Climate Change for a Thermally-mediated Trait


Meeting Abstract

P2-30  Friday, Jan. 6 15:30 – 17:30  Modeling the Incubation Microclimate to Predict Implications of Responses to Climate Change for a Thermally-mediated Trait CARTER, AL*; BODENSTEINER, BL; IVERSON, JB; MILNE-ZELMAN, CL; MITCHELL, TS; REFSNIDER, JM; WARNER, DA; JANZEN, FJ; Iowa State University, Ames; Iowa State University, Ames; Earlham College, Richmond, IN; Aurora University, IL; Auburn University, AL; University of Toledo, OH; Auburn University, AL; Iowa State University, Ames acarter1@iastate.edu http://www.lastchapterresearch.com

A key aim of ecology is understanding how populations respond to environmental variation, especially rapid climate warming. While climate change is typically modeled on a continental or global scale, responses depend on complex physiology-microenvironment interactions that manifest at both population and individual levels. In species with temperature-dependent sex determination (TSD), temperature variation may dramatically skew offspring sex ratios, reducing population viability. However, predictive models that rely on broad-scale climate data do not capture the microclimate-scale processes that drive thermally-mediated embryonic development. We used a spatially-explicit model of embryonic development, driven by a mechanistic soil temperature model, to examine the microclimate-mediated consequences of hypothetical behavioral and physiological responses to climate warming in painted turtles (Chrysemys picta), a widespread species with TSD. Shifts in thermal reaction norms, due to modifications of either maternal behavior (nesting phenology and/or nest location and depth) or temperature-dependent developmental parameters, could buffer offspring sex ratios against climate change. However, effectiveness of either strategy is mediated locally by the rate of response(s) and magnitude of climate warming observed.

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