Cooling requirements fueled the collapse of a desert bird community from climate change

Eric A. Riddell; Kelly J. Iknayan; Blair O. Wolf; Barry Sinervo; Steven R. Beissinger

doi:10.1073/pnas.1908791116

Edited by Robert E. Ricklefs, University of Missouri–St. Louis, St. Louis, MO, and approved August 30, 2019 (received for review May 22, 2019)

Significance

Climate change—especially accelerated warming and drying—threatens to increase extinction risk, yet there is little evidence that physiological limitations have contributed to species declines. This study links species-specific water requirements for cooling body temperature to the collapse of a Mojave Desert bird community over the past century from climate change. Species occupying the hottest, driest sites were less likely to persist. Birds with the greatest water requirements for cooling their body temperature experienced the largest declines. Large-bodied carnivores and insectivores were especially vulnerable to cooling costs because they obtain water primarily from their food. Climate warming increases the evaporative cooling demand for birds, which will affect geographic patterns in body size and future extinction risk.

Abstract

Climate change threatens global biodiversity by increasing extinction risk, yet few studies have uncovered a physiological basis of climate-driven species declines. Maintaining a stable body temperature is a fundamental requirement for homeothermic animals, and water is a vital resource that facilitates thermoregulation through evaporative cooling, especially in hot environments. Here, we explore the potential for thermoregulatory costs to underlie the community collapse of birds in the Mojave Desert over the past century in response to climate change. The probability of persistence was lowest for species occupying the warmest and driest sites, which imposed the greatest cooling costs. We developed a general model of heat flux to evaluate whether water requirements for evaporative cooling contributed to species’ declines by simulating thermoregulatory costs in the Mojave Desert for 50 bird species representing the range of observed declines. Bird species’ declines were positively associated with climate-driven increases in water requirements for evaporative cooling and exacerbated by large body size, especially for species with animal-based diets. Species exhibiting reductions in body size across their range saved up to 14% in cooling costs and experienced less decline than species without size reductions, suggesting total cooling costs as a mechanism underlying Bergmann’s rule. Reductions in body size, however, are unlikely to offset the 50 to 78% increase in cooling costs threatening desert birds from future climate change. As climate change spreads warm, dry conditions across the planet, water requirements are increasingly likely to drive population declines, providing a physiological basis for climate-driven extinctions.

Footnotes

↵¹To whom correspondence may be addressed. Email: riddell{at}berkeley.edu.

Author contributions: E.A.R., K.J.I., B.O.W., B.S., and S.R.B. designed research; E.A.R. and K.J.I. performed research; E.A.R. and K.J.I. analyzed data; E.A.R., B.O.W., and S.R.B. wrote the paper; and K.J.I. provided critical data.
The authors declare no conflict of interest.
This article is a PNAS Direct Submission.
Data deposition: The Python script for these simulations has been deposited on GitHub (https://github.com/ecophysiology/cooling_costs). Specimen identification numbers have been deposited on the Open Science Framework (https://osf.io/jtpsf/).
This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1908791116/-/DCSupplemental.