Matthew Kauffman, PhD
Unit Leader - Wyoming Cooperative Fish and Wildlife Research Unit
Matt has worked on topics that include the management and recovery of peregrine falcons, habitat quality and fidelity of North Pacific whale species, the effects of range management on carnivores in southern Africa, the dynamics of elk populations, and interactions among wolves, elk and aspen.
Only Matt's five most recent publications are shown here. For more information about Matt, including a full publications list, visit his profile page on the Wyoming Cooperative Fish and Wildlife Research Unit web site.
Education
- University of Montana 2004
- University of California, Santa Cruz 2003
- Ph D University of California, Santa Cruz 2003
- BA University of Oregon 1992
Research Interests
Matt and his graduate students are conducting studies on elk, wolves, moose, deer, and bighorn sheep in Wyoming, addressing the influence of habitat condition, predation, human disturbance, and energy development on these species. Matt’s research combines work on animal physiology, behavior and demography to better understand population- and landscape-level processes. A primary focus of this work is to provide timely information to agency biologists charged with managing Wyoming’s wildlife.
Teaching Interests
Matt teaches graduate courses in quantitative analysis of spatial wildlife data, community ecology of wildlife, and migration ecology.
Science and Products
Functional attributes of ungulate migration: Landscape features facilitate movement and access to forage
Is ungulate migration culturally transmitted? Evidence of social learning from translocated animals
Wild migrations: Atlas of Wyoming's ungulates
Integrating physiological stress into the movement ecology of migratory ungulates: A spatial analysis with mule deer
Green‐wave surfing increases fat gain in a migratory ungulate
U.S. Geological Survey science for the Wyoming Landscape Conservation Initiative—2016 annual report
Factors influencing elk recruitment across ecotypes in the Western United States
Demographic drivers of a refugee species: Large‐scale experiments guide strategies for reintroductions of hirola
Moving in the Anthropocene: Global reductions in terrestrial mammalian movements
Diel predator activity drives a dynamic landscape of fear
State-dependent behavior alters endocrine–energy relationship: Implications for conservation and management
Linking spring phenology with mechanistic models of host movement to predict disease transmission risk
Science and Products
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Filter Total Items: 80
Functional attributes of ungulate migration: Landscape features facilitate movement and access to forage
Long‐distance migration by terrestrial mammals is a phenomenon critical to the persistence of populations, but such migrations are declining globally because of over‐harvest, habitat loss, and movement barriers. Increasingly, there is a need to improve existing routes, mitigate route segments affected by anthropogenic disturbance, and in some instances, determine whether alternative routes are avaAuthorsKevin L. Monteith, Matthew M. Hayes, Matthew Kauffman, Holly Copeland, Hall SawyerIs ungulate migration culturally transmitted? Evidence of social learning from translocated animals
Ungulate migrations are assumed to stem from learning and cultural transmission of information regarding seasonal distribution of forage, but this hypothesis has not been tested empirically. We compared the migratory propensities of bighorn sheep and moose translocated into novel habitats with those of historical populations that had persisted for hundreds of years. Whereas individuals from historAuthorsKevin L. Monteith, Hollie M. Miyasaki, Doug E . McWhirter, Mark A. Hurley, Alyson Courtemanch, Jeffrey L. Beck, Ellen O. Aikens, Jacob R. Goheen, Jerod A. Merkle, Brett R. Jesmer, Matthew KauffmanWild migrations: Atlas of Wyoming's ungulates
No abstract available.AuthorsWilliam J. Rudd, Matthew Kauffman, James Meacham, Hall Sawyer, Emilene Ostlind, Alethea SteingisserIntegrating physiological stress into the movement ecology of migratory ungulates: A spatial analysis with mule deer
Rapid climate and human land-use change may limit the ability of long-distance migratory herbivores to optimally track or “surf” high-quality forage during spring green-up. Understanding how anthropogenic and environmental stressors influence migratory movements is of critical importance because of their potential to cause a mismatch between the timing of animal movements and the emergence of higAuthorsDavid S. Jachowski, Matthew Kauffman, Brett R. Jesmer, Hall Sawyer, Joshua J. MillspaughGreen‐wave surfing increases fat gain in a migratory ungulate
Each spring, migratory herbivores around the world track or ‘surf’ green waves of newly emergent vegetation to distant summer or wet‐season ranges. This foraging tactic may help explain the great abundance of migratory herbivores on many seasonal landscapes. However, the underlying fitness benefits of this life‐history strategy remain poorly understood. A fundamental prediction of the green‐wave hAuthorsArthur D. Middleton, Jerod Merkle, Douglas E. McWhirter, John G. Cook, Rachel C. Cook, P.J. White, Matthew J. KauffmanU.S. Geological Survey science for the Wyoming Landscape Conservation Initiative—2016 annual report
This is the ninth annual report highlighting U.S. Geological Survey (USGS) science and decision-support activities conducted for the Wyoming Landscape Conservation Initiative (WLCI). The activities address specific management needs identified by WLCI partner agencies. In fiscal year (FY) 2016, there were 26 active USGS WLCI science-based projects. Of these 26 projects, one project was new for FY20AuthorsZachary H. Bowen, Ellen Aikens, Cameron L. Aldridge, Patrick J. Anderson, Timothy J. Assal, Anna D. Chalfoun, Geneva W. Chong, Cheryl A. Eddy-Miller, Steven L. Garman, Steve Germaine, Collin G. Homer, Aaron N. Johnston, Matthew J. Kauffman, Daniel J. Manier, Cynthia P. Melcher, Kirk A. Miller, Annika W. Walters, Jerrod D. Wheeler, Daniel J. Wieferich, Anna B. Wilson, Teal B. Wyckoff, Linda ZeigenfussByEcosystems Mission Area, Water Resources Mission Area, Science Synthesis, Analysis and Research Program, Land Management Research Program, Science Analytics and Synthesis (SAS) Program, Species Management Research Program, Earth Resources Observation and Science (EROS) Center , Fort Collins Science Center, Geology, Geophysics, and Geochemistry Science Center, Northern Rocky Mountain Science Center, Wyoming-Montana Water Science CenterFactors influencing elk recruitment across ecotypes in the Western United States
Ungulates are key components in ecosystems and economically important for sport and subsistence harvest. Yet the relative importance of the effects of weather conditions, forage productivity, and carnivores on ungulates are not well understood. We examined changes in elk (Cervus canadensis) recruitment (indexed as age ratios) across 7 states and 3 ecotypes in the northwestern United States duringAuthorsPaul M. Lukacs, Michael S. Mitchell, Mark Hebblewhite, Bruce K. Johnson, Heather E. Johnson, Matthew J. Kauffman, Kelly M. Proffitt, Peter Zager, Jedediah Brodie, Kent Hersey, A. Andrew Holland, Mark Hurley, Scott McCorquodale, Arthur Middleton, Matthew Nordhagen, J. Joshua Nowak, Daniel P. Walsh, P.J. WhiteDemographic drivers of a refugee species: Large‐scale experiments guide strategies for reintroductions of hirola
Effective reintroduction strategies require accurate estimates of vital rates and the factors that influence them. The hirola (Beatragus hunteri) is the rarest antelope on Earth, with a global population size of <500 individuals restricted to the Kenya–Somali border. We estimated vital rates of hirola populations exposed to varying levels of predation and rangeland quality from 2012 to 2015, and tAuthorsAbdullahi H. Ali, Matthew J. Kauffman, Rajan Amin, Amos Kibara, Juliet King, David P. Mallon, Charles Musyoki, Jacob R. GoheenMoving in the Anthropocene: Global reductions in terrestrial mammalian movements
Animal movement is fundamental for ecosystem functioning and species survival, yet the effects of the anthropogenic footprint on animal movements have not been estimated across species. Using a unique GPS-tracking database of 803 individuals across 57 species, we found that movements of mammals in areas with a comparatively high human footprint were on average one-half to one-third the extent of tAuthorsMarlee A. Tucker, Katrin Böhning-Gaese, William F. Fagan, John Fryxell, Bram Van Moorter, Susan C Alberts, Abdullahi H. Ali, Andrew M. Allen, Nina Attias, Tal Avgar, Hattie Bartlam-Brooks, Buuveibaatar Bayarbaatar, Jerrold L. Belant, Alessandra Bertassoni, Dean Beyer, Laura Bidner, Floris M. van Beest, Stephen Blake, Niels Blaum, Chloe Bracis, Danielle Brown, P. J. Nico de Bruyn, Francesca Cagnacci, J.M. Calabrese, Constança Camilo-Alves, Simon Chamaillé-Jammes, Andre Chiaradia, Sarah C. Davidson, Todd Dennis, Stephen DeStefano, Duane R. Diefenbach, Iain Douglas-Hamilton, Julian Fennessy, Claudia Fichtel, Wolfgang Fiedler, Christina Fischer, Ilya Fischhoff, Christen H. Fleming, Adam T. Ford, Susanne A. Fritz, Benedikt Gehr, Jacob R. Goheen, Eliezer Gurarie, Mark Hebblewhite, Marco Heurich, A. J. Mark Hewison, Christian Hof, Edward Hurme, Lynne A. Isbell, René Janssen, Florian Jeltsch, Petra Kaczensky, Adam Kane, Peter M. Kappeler, Matthew J. Kauffman, Roland Kays, Duncan Kimuyu, Flavia Koch, Bart Kranstauber, Scott LaPoint, Peter Leimgruber, John D. C. Linnell, Pascual López-López, A. Catherine Markham, Jenny Mattisson, Emilia Patricia Medici, Ugo Mellone, E. Merrill, Guilherme de Miranda Mourão, Ronaldo G. Morato, Nicolas Morellet, Thomas A. Morrison, Samuel L. Díaz-Muñoz, Atle Mysterud, Dejid Nandintsetseg, Ran Nathan, Aidin Niamir, John Odden, Robert B. O'Hara, Luiz G. R. Oliveira-Santos, Kirk A. Olson, Bruce D. Patterson, Rogerio Cunha de Paula, Luca Pedrotti, Björn Reineking, Martin Rimmler, T. L. Rogers, Christer Moe Rolandsen, Christopher S. Rosenberry, Daniel I. Rubenstein, Kamran Safi, Sonia Saïd, Nir Sapir, Hall Sawyer, Niels Martin Schmidt, Nuria Selva, Agnieszka Sergiel, Enkhtuvshin Shiilegdamba, João Paulo Silva, N. Singh, Erling J. Solberg, Orr Spiegel, Olav Strand, S.R. Sundaresan, Wiebke Ullmann, Ulrich Voigt, J. Wall, David W. Wattles, Martin Wikelski, Christopher C. Wilmers, John W. Wilson, George Wittemyer, Filip Zięba, Tomasz Zwijacz-Kozica, Thomas MuellerDiel predator activity drives a dynamic landscape of fear
A “landscape of fear” (LOF) is a map that describes continuous spatial variation in an animal's perception of predation risk. The relief on this map reflects, for example, places that an animal avoids to minimize risk. Although the LOF concept is a potentially unifying theme in ecology that is often invoked to explain the ecological and conservation significance of fear, little is known about theAuthorsMichel T. Kohl, Daniel R. Stahler, Matthew C. Metz, James D. Forester, Matthew J. Kauffman, Nathan Varley, P.J. White, Douglas W. Smith, Daniel R. MacNultyState-dependent behavior alters endocrine–energy relationship: Implications for conservation and management
Glucocorticoids (GC) and triiodothyronine (T3) are two endocrine markers commonly used to quantify resource limitation, yet the relationships between these markers and the energetic state of animals has been studied primarily in small-bodied species in captivity. Free-ranging animals, however, adjust energy intake in accordance with their energy reserves, a behavior known as state-dependent foragiAuthorsBrett R. Jesmer, Jacob R. Goheen, Kevin L. Monteith, Matthew J. KauffmanLinking spring phenology with mechanistic models of host movement to predict disease transmission risk
Disease models typically focus on temporal dynamics of infection, while often neglecting environmental processes that determine host movement. In many systems, however, temporal disease dynamics may be slow compared to the scale at which environmental conditions alter host space-use and accelerate disease transmission.Using a mechanistic movement modelling approach, we made space-use predictions oAuthorsJerod Merkle, Paul C. Cross, Brandon M. Scurlock, Eric Cole, Alyson B. Courtemanch, Sarah Dewey, Matthew J. Kauffman - Web Tools
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