Erik Beever, Ph.D.
Erik is interested in questions at the nexus of basic and applied science, especially those that also inform management and conservation efforts for species, communities, and ecosystems.
Research Interest
Dr. Erik Beever has published over 100 articles in diverse scientific journals and in numerous subdisciplines of biology. He has performed field research on plants, soils, amphibians, birds, reptiles, fishes, and insects, as well as small, medium, and large mammals. His work has spanned salt-scrub, sagebrush-steppe, alpine, subalpine, subarctic, riparian, primary and secondary temperate and tropical forest, and coastal ecosystems of the western hemisphere. In addition to seeking to understand mechanisms of biotic responses to long-term weather patterns and variability, he has also focused on disturbance ecology and monitoring in conservation reserves, all at community to landscape scales, as well as other topics of conservation ecology, wildlife biology, and landscape ecology. He is a member of the IUCN Protected Areas Specialist Group, the IUCN Lagomorph Specialist Group, as well as The Wildlife Society, Society for Conservation Biology, American Society of Mammalogists, and Sigma Xi.
Education and Certifications
Ph.D. 1999. University of Nevada, Reno. Ecology, Evolution, and Conservation Biology
B.S. 1993. University of California, Davis. Biological Sciences
Science and Products
Vegetation responses to sagebrush-reduction treatments measured by satellites
Behavioral flexibility as a mechanism for coping with climate change
Species account: Sylvilagus nuttallii (Mountain cottontail)
Species account: Lepus californicus (Black-tailed jackrabbit)
Species account: Ochotona princeps (American pika)
Species account: Lepus townsendii (White-tailed jackrabbit)
Predictors of current and longer-term patterns of abundance of American pikas (Ochotona princeps) across a leading-edge protected area
Microrefuges and the occurrence of thermal specialists: implications for wildlife persistence amidst changing temperatures
Pika (Ochotona princeps) losses from two isolated regions reflect temperature and water balance, but reflect habitat area in a mainland region
Mechanistic variables can enhance predictive models of endotherm distributions: The American pika under current, past, and future climates
Distribution of a climate-sensitive species at an interior range margin
Niche shifts and energetic condition of songbirds in response to phenology of food-resource availability in a high-elevation sagebrush ecosystem
Non-USGS Publications**
horse grazing and other management practices. Ph.D. dissertation, University of Nevada, Reno.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
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Filter Total Items: 71
Vegetation responses to sagebrush-reduction treatments measured by satellites
Time series of vegetative indices derived from satellite imagery constitute tools to measure ecological effects of natural and management-induced disturbances to ecosystems. Over the past century, sagebrush-reduction treatments have been applied widely throughout western North America to increase herbaceous vegetation for livestock and wildlife. We used indices from satellite imagery to 1) quantifAuthorsAaron N. Johnston, Erik A. Beever, Jerod Merkle, Geneva W. ChongBehavioral flexibility as a mechanism for coping with climate change
Of the primary responses to contemporary climate change – “move, adapt, acclimate, or die” – that are available to organisms, “acclimate” may be effectively achieved through behavioral modification. Behavioral flexibility allows animals to rapidly cope with changing environmental conditions, and behavior represents an important component of a species’ adaptive capacity in the face of climate changAuthorsErik A. Beever, L. Embere Hall, Johanna Varner, Anne E. Loosen, Jason B. Dunham, Megan K. Gahl, Felisa A. Smith, Joshua J. LawlerSpecies account: Sylvilagus nuttallii (Mountain cottontail)
No abstract available.AuthorsErik A. Beever, Eveline A. LarruceaSpecies account: Lepus californicus (Black-tailed jackrabbit)
No abstract available.AuthorsErik A. BeeverSpecies account: Ochotona princeps (American pika)
No abstract available.AuthorsErik A. Beever, Chittaranjan Ray, Andrew T. SmithSpecies account: Lepus townsendii (White-tailed jackrabbit)
No abstract available.AuthorsErik A. BeeverPredictors of current and longer-term patterns of abundance of American pikas (Ochotona princeps) across a leading-edge protected area
American pikas (Ochotona princeps) have been heralded as indicators of montane-mammal response to contemporary climate change. Pikas no longer occupy the driest and lowest-elevation sites in numerous parts of their geographic range. Conversely, pikas have exhibited higher rates of occupancy and persistence in Rocky Mountain and Sierra Nevada montane ‘mainlands’. Research and monitoring efforts onAuthorsLucas Moyer-Horner, Erik A. Beever, Douglas H. Johnson, Mark Beil, Jami BeltMicrorefuges and the occurrence of thermal specialists: implications for wildlife persistence amidst changing temperatures
BackgroundContemporary climate change is affecting nearly all biomes, causing shifts in animal distributions, phenology, and persistence. Favorable microclimates may buffer organisms against rapid changes in climate, thereby allowing time for populations to adapt. The degree to which microclimates facilitate the local persistence of climate-sensitive species, however, is largely an open question.AuthorsL. Embere Hall, Anna D. Chalfoun, Erik A. Beever, Anne E. LoosenPika (Ochotona princeps) losses from two isolated regions reflect temperature and water balance, but reflect habitat area in a mainland region
Although biotic responses to contemporary climate change are spatially pervasive and often reflect synergies between climate and other ecological disturbances, the relative importance of climatic factors versus habitat extent for species persistence remains poorly understood. To address this shortcoming, we performed surveys for American pikas (Ochotona princeps) at > 910 locations in 3 geographicAuthorsErik A. Beever, John D. Perrine, Tom Rickman, Mary Flores, John P. Clark, Cassie Waters, Shana S. Weber, Braden Yardley, David P. Thoma, Tara L. Chesley-Preston, Kenneth E. Goehring, Michael Magnuson, Nancy Nordensten, Melissa Nelson, Gail H. CollinsMechanistic variables can enhance predictive models of endotherm distributions: The American pika under current, past, and future climates
How climate constrains species’ distributions through time and space is an important question in the context of conservation planning for climate change. Despite increasing awareness of the need to incorporate mechanism into species distribution models (SDMs), mechanistic modeling of endotherm distributions remains limited in this literature. Using the American pika (Ochotona princeps) as an exampAuthorsPaul Mathewson, Lucas Moyer-Horner, Erik A. Beever, Natalie Briscoe, Michael T. Kearney, Jeremiah Yahn, Warren P. PorterDistribution of a climate-sensitive species at an interior range margin
Advances in understanding the factors that limit a species’ range, particularly in the context of climate change, have come disproportionately through investigations at range edges or margins. The margins of a species’ range might often correspond with anomalous microclimates that confer habitat suitability where the species would otherwise fail to persist. We addressed this hypothesis using dataAuthorsChris Ray, Erik A. Beever, Thomas J. RodhouseNiche shifts and energetic condition of songbirds in response to phenology of food-resource availability in a high-elevation sagebrush ecosystem
Seasonal fluctuations in food availability can affect diets of consumers, which in turn may influence the physiological state of individuals and shape intra- and inter-specific patterns of resource use. High-elevation ecosystems often exhibit a pronounced seasonal “pulse” in productivity, although few studies document how resource use and energetic condition by avian consumers change in relation tAuthorsKyle A. Cutting, Michelle L. Anderson, Erik A. Beever, Sean Schroff, Nathan Korb, Eric Klaphake, Scott R. McWilliamsNon-USGS Publications**
G.S. Casper, E. Beever, U. Gafvert, and S.M. Nadeau. 2018. Amphibian Monitoring Protocol (Version 2.0). Natural Resource Report NPS/GLKN/NRR—2018/1761. National Park Service, Great Lakes Inventory & Monitoring Network, Ashland, WI.S.K. Windels, Beever, E.A., J. Paruk, A. Nelson, L. Siegel, D. Evers, and C.C. MacNulty. 2013. Effects of water-level management on nesting success of common loons. Journal of Wildlife Management 77(8):1626-1638.Beever, E.A. 1999. Species- and community-level responses to disturbance imposed by feral
horse grazing and other management practices. Ph.D. dissertation, University of Nevada, Reno.
Beever, E.A. and P.F. Brussard. 2000. Charismatic megafauna or exotic pest? Interactions between popular perceptions of feral horses (Equus caballus) and their management and research. Pages 413-418 In: T.P. Salmon and A.C. Crabb, editors. Proceedings of the 19th International Vertebrate Pest Conference, University of California, DavisDunham, J. B., B. R. Dickerson, E. Beever, R. D. Duncan, and G. L. Vinyard. 2000. Effects of food limitation and emigration on self-thinning in experimental minnow cohorts. Journal of Animal Ecology 69(6):927-934.Beever, E.A. and P.F. Brussard. 2000. Examining ecological consequences of feral horse grazing using exclosures. Western North American Naturalist 60(3):236-254.
Beever, E.A. 2000. The roles of optimism in conservation biology. Conservation Biology 14(3):907-909.Beever, E.A. and D.A. Pyke. 2002. Research plan for lands administered by the U.S. Department of Interior in the Interior Columbia Basin & Snake River Plateau. U.S. Geological Survey, Information and Technology Report 2002-003. 76 p.Beever, E.A. 2002. Persistence of pikas in two low-elevation national monuments in the western United States. Park Science 21(2):23-29.Beever, E.A., P.F. Brussard, and J. Berger. 2003. Patterns of extirpation among isolated populations of pikas (Ochotona princeps) in the Great Basin. Journal of Mammalogy 84(1):37-54.Haig, S.M, E.A. Beever, et al. 2006. Taxonomy and listing of subspecies under the U.S. ESA: challenges for conservation and policy implementation. Conservation Biology 20(6):1584-1594Bowen, K.D., S.D. McMahon, and E.A. Beever. 2007. Geographic distribution. Elaphe vulpina (Western Foxsnake). Herpetological Review 38(4):486Johnson, S.E., E.L. Mudrak, E.A. Beever, S. Sanders, and D.M. Waller. 2008. Comparing power among three sampling methods for monitoring forest vegetation. Canadian Journal of Forest Research 38:143-156.Beever, E.A., R.J. Tausch, and W.E. Thogmartin. 2008. Landscape- and local-scale responses of vegetation to removal of horse grazing from Great Basin (U.S.A.) mountain ranges. Plant Ecology 196(2):163-184.Beever, E.A., and A.T. Smith. 2008. Ochotona princeps. In: IUCN 2010. IUCN Red List of Threatened Species. Version 2010.4Bowen, K.D., E.A. Beever, and U.B. Gafvert. 2009. Improving the design of amphibian surveys using soil data: a case study in two wilderness areas. Natural Areas Journal 29(2):117-125.Beever, E.A. 2009. Ecological silence of the grasslands, forests, wetlands, mountains, and seas. Conservation Biology 23(5):1320-1322.Beever, E.A., C. Ray, P.W. Mote, and J.L. Wilkening. 2010. Testing alternative models of climate-mediated extirpations. Ecological Applications 20(1):164-178.Bowen, K.B., and E.A. Beever. 2010. Daytime amphibian surveys at three National Lakeshores in the Western Great Lakes ecoregion. Reptiles & Amphibians 17(1):26-35.Rodhouse, T.J., E.A. Beever, L.K. Garrett, K.M. Irvine, M. Munts, C. Ray, and M.R. Shardlow. 2010. Distribution of American pikas in a low-elevation lava landscape: conservation implications from the range periphery. Journal of Mammalogy 91(5):1287-1299.Bowen, K.B., and E.A. Beever. 2010. Pilot amphibian monitoring at Apostle Islands, Pictured Rocks, and Sleeping Bear Dunes National Lakeshores: analysis and recommendations. NPS Natural Resource Report NPS/GLKN/NRTR–2010/360. ix + 49 pp.Wilkening, J.L., C. Ray, E.A. Beever, and P.F. Brussard. 2011. Modeling contemporary range retraction in Great Basin pikas (Ochotona princeps) using data on microclimate and microhabitat. Quaternary International 235:77-88.Beever, E.A., C. Ray, J.L. Wilkening, P.F. Brussard, and P.W. Mote. 2011. Contemporary climate change alters the pace and drivers of extinction. Global Change Biology 17(6):2054-2070Beever, E.A., and C.L. Aldridge. 2011. Influences of free-roaming equids on sagebrush ecosystems, with a focus on Greater Sage-grouse. INVITED article, Studies in Avian Biology 38:273-290.Belant, J., and Beever, E.A. 2011. Ecological consequences of climate change: Introduction. In: Ecological consequences of climate change: mechanisms, conservation, and management. CRC Press (Taylor and Francis Group).Beever, E.A., and J. Belant. 2011. Ecological consequences of climate change: synthesis and research needs. Pages 285-294 In: Ecological consequences of climate change: mechanisms, conservation, and management. CRC Press (Taylor and Francis Group).Beever, E.A., and J. Belant, Editors. 2011. Ecological consequences of climate change: mechanisms, conservation, and management. CRC Press (Taylor and Francis Group). xix + 314 pp.Beever, E.A., C. Ray, J.L. Wilkening, P.W. Mote, and P.F. Brussard. 2011. Landscape-scale conservation and management of montane wildlife: contemporary climate may be changing the rules. Intermountain Journal of Science 17(1-4):41-42.Beever, E.A., and A.T. Smith. 2011. Ochotona princeps. In: IUCN 2011. IUCN Red List of Threatened Species. Version 2011.2.Calkins, M.T., E.A. Beever, K.G. Boykin, J.K. Frey, and M.C. Andersen. 2012. Not-so-splendid isolation: modeling climate-mediated range collapse of a montane mammal (Ochotona princeps) across numerous ecoregions. Ecography 35(9):780-791.Ray, C., E.A. Beever, and S. Loarie. 2012. Retreat of the American pika: up the mountain or into the void? Invited chapter (pages 245-270) in : Brodie, J.F., E. Post, and D.F. Doak, editors, Wildlife conservation in a changing climate. University of Chicago Press, Chicago, IL.**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
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