Blake Hossack, Ph.D.
Blake Hossack's research is focused on measuring population and community responses to climate change, energy development, invasive species, and wetland mitigation and management
Research Interests
Most of Blake's research is focused on wetlands and amphibians, with long-term research areas in the Crown of the Continent Ecosystem (Montana), Greater Yellowstone Ecosystem (Wyoming), southern Arizona and Mexico, the northern Great Plains, and the subarctic (Manitoba). To improve conservation success, Blake has increasingly sought to integrate research into management applications. He is stationed at the University of Montana in Missoula, Montana, where he coordinates activities for the Amphibian Research and Monitoring Initiative (ARMI).
Current Research Projects:
- Long-term research on amphibians and wetlands in the Desert Southwest, Greater Yellowstone Ecosystem, and Crown of the Continent Ecosystem
- Effects of disease on imperiled amphibian populations
- Designing citizen science programs for research on effects of climate change on wetland communities in the Canadian Subarctic
- Measurement of the threat of climate to aquatic species, their capacity for local adaptation, and adaptive management to reduce threats.
- Integrating metapopulation ecology and landscape ecology for improved population viability analysis and conservation decision-making.
- Quantifying the ecological value of mitigation and other constructed wetlands
- Informing recovery of threatened and endangered amphibians in the US-Mexico Borderlands
- Effects of energy development on wetland communities in the Prairie Pothole Region
- Using environmental DNA (eDNA) to detect and monitor pathogens and rare herpetofauna
- Documenting responses of aquatic communities to installation of beaver dam analog structures in headwater streams in prairie and sagebrush lands
Education and Certifications
Ph.D. Fish and Wildlife Biology. 2011. University of Montana, Missoula
M.S. Wildlife Biology. 1998. University of Idaho, Moscow
B.S. Wildlife Biology. 1996. University of Montana, Missoula
Science and Products
Additive impacts of experimental climate change increase risk to an ectotherm at the Arctic's edge
Amphibian dynamics in constructed ponds on a wildlife refuge: developing expected responses to hydrological restoration
Survival estimates for reintroduced populations of the Chiricahua Leopard Frog (Lithobates chiricahuensis)
Influence of climate drivers on colonization and extinction dynamics of wetland-dependent species
Reevaluating geographic variation in life-history traits of a widespread Nearctic amphibian
Distribution of the Sonora Tiger Salamander (Ambystoma mavortium stebbinsi) in Mexico
Where the wild things are: A research agenda for studying wildlife-wilderness relationship
Quantitative evidence for the effects of multiple drivers on continental-scale amphibian declines
Movement and survival of an amphibian in relation to sediment and culvert design
Estimating abundance in the presence of species uncertainty
Amphibian mortality events and ranavirus outbreaks in the Greater Yellowstone Ecosystem
Salamander chytrid fungus (Batrachochytrium salamandrivorans) in the United States—Developing research, monitoring, and management strategies
Science and Products
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Filter Total Items: 104
Additive impacts of experimental climate change increase risk to an ectotherm at the Arctic's edge
Globally, Arctic and Subarctic regions have experienced the greatest temperature increases during the last 30 years. These extreme changes have amplified threats to the freshwater ecosystems that dominate the landscape in many areas by altering water budgets. Several studies in temperate environments have examined the adaptive capacity of organisms to enhance our understanding of the potential repAuthorsJon M. Davenport, Blake R. Hossack, LeeAnn FishbackAmphibian dynamics in constructed ponds on a wildlife refuge: developing expected responses to hydrological restoration
Management actions are based upon predictable responses. To form expected responses to restoration actions, I estimated habitat relationships and trends (2002–2015) for four pond-breeding amphibians on a wildlife refuge (Montana, USA) where changes to restore historical hydrology to the system greatly expanded (≥8 times) the flooded area of the primary breeding site for western toads (Anaxyrus borAuthorsBlake R. HossackSurvival estimates for reintroduced populations of the Chiricahua Leopard Frog (Lithobates chiricahuensis)
Global amphibian declines have been attributed to a number of factors including disease, invasive species, habitat degradation, and climate change. Reintroduction is one management action that is commonly used with the goal of recovering imperiled species. The success of reintroductions varies widely, and evaluating their efficacy requires estimates of population viability metrics, such as underlyAuthorsPaige E. Howell, Blake R. Hossack, Erin L. Muths, Brent H. Sigafus, Richard B. ChandlerInfluence of climate drivers on colonization and extinction dynamics of wetland-dependent species
Freshwater wetlands are particularly vulnerable to climate change. Specifically, changes in temperature, precipitation, and evapotranspiration (i.e., climate drivers) are likely to alter flooding regimes of wetlands and affect the vital rates, abundance, and distributions of wetland-dependent species. Amphibians may be among the most climate-sensitive wetland-dependent groups, as many species relyAuthorsAndrew M. Ray, William R. Gould, Blake R. Hossack, Adam J. Sepulveda, David P. Thoma, Debra A. Patla, Rob Daley, Robert K. Al-ChokhachyReevaluating geographic variation in life-history traits of a widespread Nearctic amphibian
Animals from cold environments are usually larger than animals from warm environments, which often produce clines in body size. Because variation in body size can lead to trade-offs between growth and reproduction, life-history traits should also vary across climatic gradients. To determine if life-history traits of wood frogs Rana sylvatica vary with climate, we examined female and male body lengAuthorsJon M. Davenport, Blake R. HossackDistribution of the Sonora Tiger Salamander (Ambystoma mavortium stebbinsi) in Mexico
The Sonoran Tiger Salamander (Ambystoma mavortium stebbinsi Lowe, 1954) was listed as federally endangered in the USA in 1997 (USFWS 1997). In the USA, the distribution of A. mavortium stebbinsi is limited to the San Rafael Valley (approximately 567 km2), between the Sierra San Antonio (called the Patagonia Mountains in Arizona) and Huachuca Mountains, and south of the Canelo Hills, Arizona (Fig.AuthorsBlake R. Hossack, Erin L. Muths, James C. Rorabaugh, Julio A. Lemos Espinal, Brent H. Sigafus, Thierry A. Chambert, Gerardo Carreon Arroyo, David Hurtado Felix, Daniel Toyos Martinez, Thomas R. JonesWhere the wild things are: A research agenda for studying wildlife-wilderness relationship
We explore the connection between US designated wilderness areas and wildlife with the goal of establishing a research agenda for better understanding this complex relationship. Our research agenda has two components. The first, “wildlife for wilderness,” considers the impact of wildlife on wilderness character. Whereas studies show that wildlife is important in both the perception and actual enhaAuthorsMichael K. Schwartz, Beth Hahn, Blake R. HossackQuantitative evidence for the effects of multiple drivers on continental-scale amphibian declines
Since amphibian declines were first proposed as a global phenomenon over a quarter century ago, the conservation community has made little progress in halting or reversing these trends. The early search for a “smoking gun” was replaced with the expectation that declines are caused by multiple drivers. While field observations and experiments have identified factors leading to increased local extinAuthorsEvan H. Campbell Grant, David A. W. Miller, Benedikt R. Schmidt, M. J. Adams, Staci M. Amburgey, Thierry A. Chambert, Sam S. Cruickshank, Robert N. Fisher, David M. Green, Blake R. Hossack, Pieter T.J. Johnson, Maxwell B. Joseph, Tracy A. G. Rittenhouse, Maureen E. Ryan, J. Hardin Waddle, Susan C. Walls, Larissa L. Bailey, Gary M. Fellers, Thomas A. Gorman, Andrew M. Ray, David S. Pilliod, Steven J. Price, Daniel Saenz, Walt Sadinski, Erin L. MuthsMovement and survival of an amphibian in relation to sediment and culvert design
Habitat disturbance from stream culverts can affect aquatic organisms by increasing sedimentation or forming barriers to movement. Land managers are replacing many culverts to reduce these negative effects, primarily for stream fishes. However, these management actions are likely to have broad implications for many organisms, including amphibians in small streams. To assess the effects of culvertsAuthorsR.K Honeycutt, W.H. Lowe, Blake R. HossackEstimating abundance in the presence of species uncertainty
1.N-mixture models have become a popular method for estimating abundance of free-ranging animals that are not marked or identified individually. These models have been used on count data for single species that can be identified with certainty. However, co-occurring species often look similar during one or more life stages, making it difficult to assign species for all recorded captures. This uncAuthorsThierry A. Chambert, Blake R. Hossack, LeeAnn Fishback, Jon M. DavenportAmphibian mortality events and ranavirus outbreaks in the Greater Yellowstone Ecosystem
Mortality events in wild amphibians go largely undocumented, and where events are detected, the numbers of dead amphibians observed are probably a small fraction of actual mortality (Green and Sherman 2001; Skerratt et al. 2007). Incidental observations from field surveys can, despite limitations, provide valuable information on the presence, host species, and spatial distribution of diseases. HerAuthorsDebra A. Patla, Sophia St-Hilaire, Andrew P. Rayburn, Blake R. Hossack, Charles R. PetersonSalamander chytrid fungus (Batrachochytrium salamandrivorans) in the United States—Developing research, monitoring, and management strategies
The recently (2013) identified pathogenic chytrid fungus, Batrachochytrium salamandrivorans (Bsal), poses a severe threat to the distribution and abundance of salamanders within the United States and Europe. Development of a response strategy for the potential, and likely, invasion of Bsal into the United States is crucial to protect global salamander biodiversity. A formal working group, led by AAuthorsEvan H. Campbell Grant, Erin L. Muths, Rachel A. Katz, Stefano Canessa, M. J. Adams, Jennifer R. Ballard, Lee Berger, Cheryl J. Briggs, Jeremy T. H. Coleman, Matthew J. Gray, M. Camille Harris, Reid N. Harris, Blake R. Hossack, Kathryn P. Huyvaert, Jonathan E. Kolby, Karen R. Lips, Robert E. Lovich, Hamish I. McCallum, Joseph R. Mendelson, Priya Nanjappa, Deanna H. Olson, Jenny G. Powers, Katherine L. D. Richgels, Robin E. Russell, Benedikt R. Schmidt, Annemarieke Spitzen-van der Sluijs, Mary Kay Watry, Douglas C. Woodhams, C. LeAnn White - News