A Ground-Nesting Galliform's Response to Thermal Heterogeneity: Implications for Ground-Dwelling Birds

作者:Carroll J Matthew*; Davis Craig A; Elmore R Dwayne; Fuhlendorf Samuel D
来源:PLos One, 2015, 10(11): e0143676.
DOI:10.1371/journal.pone.0143676

摘要

The habitat selection choices that individuals make in response to thermal environments influence both survival and reproduction. Importantly, the way that organisms behaviorally respond to thermal environments depends on the availability and juxtaposition of sites affording tolerable or preferredmicroclimates. Although, ground nesting birds are especially susceptible to heat extremes across many reproductive stages (i.e., breeding, nesting, brood rearing), the mechanistic drivers of nest site selection for these species are not well established from a thermal perspective. Our goal was to assess nest site selection relative to the configuration of the thermal landscape by quantifying thermal environments available to a ground-nesting bird species inhabiting a climatically stressful environment. Using northern bobwhite (Colinus virginanus) as a model species, we measured black bulb temperature (T-bb) and vegetation parameters at 87 nests, 87 paired sites and 205 random landscape sites in Western Oklahoma during spring and summer 2013 and 2014. We found that thermal space within the study area exhibited differences in T-bb of up to 40 degrees C during peak diurnal heating, resulting in a diverse thermal landscape available to ground-nesting birds. Within this thermally heterogeneous landscape, nest sites moderated T-bb by more than 12 degrees C compared to random landscape sites. Furthermore, successful nests remained on average 6 degrees C cooler than unsuccessful nests on days experiencing ambient temperatures >= 39 degrees C. Models of future T-bb associated with 2080 climate change projections indicate that nesting bobwhites will face substantially greater T-bb throughout the landscape for longer durations, placing an even greater importance on thermal choices for nest sites in the future. These results highlight the capacity of landscape features to act as moderators of thermal extremes and demonstrate how thermal complexity at organism-specific scales can dictate habitat selection.

  • 出版日期2015-11-30