Physiology on a Landscape Scale: Plant-Animal Interactions

doi:10.1093/icb/42.3.431

Integrative and Comparative Biology 2002 42(3):431-453; doi:10.1093/icb/42.3.431
© 2002 by The Society for Integrative and Comparative Biology

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Physiology on a Landscape Scale: Plant-Animal Interactions¹

Warren P. Porter²^,1, John L. Sabo³^,2, Christopher R. Tracy¹, O. J. Reichman² and Navin Ramankutty³
¹ Department of Zoology, University of Wisconsin, 250 N. Mills St., Madison, Wisconsin 53706-1695
² National Center for Ecological Analysis and Synthesis, 735 State St., Suite 300, Santa Barbara, California 93101-3351
³ Department of Atmospheric, Oceanic & Space Sciences, University of Wisconsin, 1225 W. Dayton St., Madison, Wisconsin 53706-1695

We explore in this paper how animals can be affected by variationin climate, topography, vegetation characteristics, and bodysize. We utilize new spatially explicit state-of-the-art modelsthat incorporate principles from heat and mass transfer engineering,physiology, morphology, and behavior that have been modifiedto provide spatially explicit hypotheses using GIS. We demonstratehow temporal and spatial changes in microclimate resulting fromdifferences in topography and vegetation cover alter animalenergetics, and behavior. We explore the impacts of these energeticpredictions on elk energetics in burned and unburned standsof conifer in winter in Yellowstone National Park, chuckwallalizard distribution limits in North America, California BeecheyGround squirrel and Dusky Footed woodrat mass and energy requirementsand activity patterns on the landscape, their predator preyinteractions with a rattlesnake, Crotalus viridis, and shiftsin that food web structure due to topographic and vegetativevariation. We illustrate how different scales of data/observationprovide different pieces of information that may collectivelydefine the real distributions of a species. We then use sensitivityanalyses of energetic models to evaluate hypotheses about theeffects of changes in core temperature (fever) global climate(increased air temperature under a global warming scenario)and vegetation cover (deforestation) on winter survival of elk,the geographic distribution of chuckwallas and the activityoverlap of predator and prey species within a subset of commonlyobserved species in a terrestrial food web. Variation in slopeand aspect affect the spatial variance in solar radiation incidenton the ground, hence ground surface temperature, at the sameelevation, same hourly 2 m air temperatures, and wind speeds.We illustrate visually how spatial effects and landscape heterogeneitymake statistical descriptions of animal responses problematic,since multiple distributions of their responses to climate,topography, and vegetation on the landscape can yield the samedescriptive statistics, especially at high (30 m) resolution.This preliminary analysis suggests that the model has far-reachingimplications for hypothesis testing in ecology at a varietyof spatial and temporal scales.

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Integrative and Comparative Biology

Physiology on a Landscape Scale: Plant-Animal Interactions1

Physiology on a Landscape Scale: Plant-Animal Interactions¹