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The idiosyncrasies of place: geographic variation in the climate–distribution relationships of the American pika

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Title The idiosyncrasies of place: geographic variation in the climate–distribution relationships of the American pika
Names Jeffress, Mackenzie R. (creator)
Rodhouse, Thomas J. (creator)
Ray, Chris (creator)
Wolff, Susan (creator)
Epps, Clinton W. (creator)
Date Issued 2013-06 (iso8601)
Note To the best of our knowledge, one or more authors of this paper were federal employees when contributing to this work.
This is the publisher’s final pdf. The published article is copyrighted by Ecological Society of America and can be found at: http://esa.org/.
Abstract Although climate acts as a fundamental constraint on the distribution of
organisms, understanding how this relationship between climate and distribution varies over a
species’ range is critical for addressing the potential impacts of accelerated climate change on
biodiversity. Bioclimatic niche models provide compelling evidence that many species will
experience range shifts under scenarios of global change, yet these broad, macroecological
perspectives lack specificity at local scales, where unique combinations of environment, biota,
and history conspire against generalizations. We explored how these idiosyncrasies of place
affect the climate–distribution relationship of the American pika (Ochotona princeps) by
replicating intensive field surveys across bioclimatic gradients in eight U.S. national parks. At
macroecological scales, the importance of climate as a constraint on pika distribution appears
unequivocal; forecasts suggest that the species’ range will contract sharply in coming decades.
However, the species persists outside of its modeled bioclimatic envelope in many locations,
fueling uncertainty and debate over its conservation status. Using a Bayesian hierarchical
approach, we modeled variation in local patterns of pika distribution along topographic
position, vegetation cover, elevation, temperature, and precipitation gradients in each park
landscape. We also accounted for annual turnover in site occupancy probabilities.
Topographic position and vegetation cover influenced occurrence in all parks. After
accounting for these factors, pika occurrence varied widely among parks along bioclimatic
gradients. Precipitation by itself was not a particularly influential predictor. However,
measures of heat stress appeared most influential in the driest parks, suggesting an interaction
between the strength of climate effects and the position of parks along precipitation gradients.
The combination of high elevation, cold temperatures, and high precipitation lowered
occurrence probabilities in some parks, suggesting an upper elevational limit for pikas in some
environments. Our results demonstrate that the idiosyncrasies of place influence both the
nature and strength of the climate–distribution relationship for the American pika. Finegrained,
but geographically extensive, studies replicated across multiple landscapes offer
insights important to assessing the impacts of climate change that otherwise may be masked at
macroecological scales. The hierarchical approach to modeling provides a coherent conceptual
and technical framework for gaining these insights.
Genre Article
Topic American pika
Identifier Jeffress, M. R., Rodhouse, T. J., Ray, C., Wolff, S., & Epps, C. W. (2013). The idiosyncrasies of place: Geographic variation in the climate-distribution relationships of the american pika. Ecological Applications, 23(4), 864-878. doi:10.1890/12-0979.1

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