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
Associations between environmental pollutants and larval amphibians in wetlands contaminated by energy-related brines are potentially mediated by feeding traits
Identifying management-relevant research priorities for responding to disease-associated amphibian declines
Effects of persistent energy-related brine contamination on amphibian abundance in national wildlife refuge wetlands
Quantifying climate sensitivity and climate-driven change in North American amphibian communities
Post-breeding movement and habitat use by wood frogs along an Arctic–Subarctic ecotone
Inferring presence of the western toad (Anaxyrus boreas) species complex using environmental DNA
Status of the threatened Chiricahua Leopard Frog and conservation challenges in Sonora, Mexico, with notes on other ranid frogs and non-native predators
Heterogeneous responses of temperate-zone amphibian populations to climate change complicates conservation planning
Widespread legacy brine contamination from oil production reduces survival of chorus frog larvae
Declines revisited: Long-term recovery and spatial population dynamics oftailed frog larvae after wildfire
Using decision analysis to support proactive management of emerging infectious wildlife diseases
Informing recovery in a human-transformed landscape: Drought-mediated coexistence alters population trends of an imperiled salamander and invasive predators
Science and Products
- Science
- Data
- Publications
Filter Total Items: 104
Associations between environmental pollutants and larval amphibians in wetlands contaminated by energy-related brines are potentially mediated by feeding traits
Energy production in the Williston Basin, located in the Prairie Pothole Region of central North America, has increased rapidly over the last several decades. Advances in recycling and disposal practices of saline wastewaters (brines) co-produced during energy production have reduced ecological risks, but spills still occur often and legacy practices of releasing brines into the environment causedAuthorsKelly L. Smalling, Chauncey W. Anderson, R. Ken Honeycutt, Isabelle M. Cozzarelli, Todd M. Preston, Blake R. HossackIdentifying management-relevant research priorities for responding to disease-associated amphibian declines
A research priority can be defined as a knowledge gap that, if resolved, identifies the optimal course of conservation action. We (a group of geographically distributed and multidisciplinary research scientists) used tools from nominal group theory and decision analysis to collaboratively identify and prioritize information needs within the context of disease-associated amphibian decline, in orderAuthorsEvan H. Campbell Grant, M. J. Adams, Robert N. Fisher, Daniel A. Grear, Brian J. Halstead, Blake R. Hossack, Erin L. Muths, Katherine L. D. Richgels, Robin E. Russell, Kelly L. Smalling, J. Hardin Waddle, Susan C. Walls, C. LeAnn WhiteByEcosystems Mission Area, Water Resources Mission Area, Biological Threats and Invasive Species Research Program, Species Management Research Program, Eastern Ecological Science Center, Forest and Rangeland Ecosystem Science Center, Fort Collins Science Center, National Wildlife Health Center, New Jersey Water Science Center, Northern Rocky Mountain Science Center, Western Ecological Research Center (WERC), Wetland and Aquatic Research CenterEffects of persistent energy-related brine contamination on amphibian abundance in national wildlife refuge wetlands
To inform sustainable energy development, it is important to understand the ecological effects of historical and current production practices and the persistence of those effects. The Williston Basin is one of North America's largest oil production areas and overlaps the Prairie Pothole Region, an area densely populated with wetlands that provide important wildlife habitat. Although historical disAuthorsBlake R. Hossack, Kelly L. Smalling, Chauncey W. Anderson, Todd M. Preston, Isabelle M. Cozzarelli, R. Ken HoneycuttQuantifying climate sensitivity and climate-driven change in North American amphibian communities
Changing climate will impact species’ ranges only when environmental variability directly impacts the demography of local populations. However, measurement of demographic responses to climate change has largely been limited to single species and locations. Here we show that amphibian communities are responsive to climatic variability, using >500,000 time-series observations for 81 species across 8AuthorsDavid A.W. Miller, Evan H. Campbell Grant, Erin L. Muths, Staci M. Amburgey, M. J. Adams, Maxwell B. Joseph, J. Hardin Waddle, Pieter T.J. Johnson, Maureen E. Ryan, Benedikt R. Schmidt, Daniel L. Calhoun, Courtney L. Davis, Robert N. Fisher, David M. Green, Blake R. Hossack, Tracy A.G. Rittenhouse, Susan C. Walls, Larissa L. Bailey, Sam S. Cruickshank, Gary M. Fellers, Thomas A. Gorman, Carola A. Haas, Ward Hughson, David S. Pilliod, Steven J. Price, Andrew M. Ray, Walter Sadinski, Daniel Saenz, William J. Barichivich, Adrianne B. Brand, Cheryl S. Brehme, Rosi Dagit, Katy S. Delaney, Brad M. Glorioso, Lee B. Kats, Patrick M. Kleeman, Christopher Pearl, Carlton J. Rochester, Seth P. D. Riley, Mark F. Roth, Brent SigafusByEcosystems Mission Area, Water Resources Mission Area, Species Management Research Program, Eastern Ecological Science Center, Forest and Rangeland Ecosystem Science Center, Fort Collins Science Center, John Wesley Powell Center for Analysis and Synthesis, Northern Rocky Mountain Science Center, South Atlantic Water Science Center (SAWSC), Southwest Biological Science Center, Upper Midwest Environmental Sciences Center, Western Ecological Research Center (WERC), Wetland and Aquatic Research CenterPost-breeding movement and habitat use by wood frogs along an Arctic–Subarctic ecotone
By altering essential micro- and macrohabitat conditions for many organisms, climate change is already causing disproportionately greater impacts on Arctic and Subarctic ecosystems. Yet there is a lack of basic information about many species in northern latitudes, including amphibians. We used radio telemetry to study the post-breeding movements and habitat use of wood frogs (Rana [=Lithobates] syAuthorsStephanie Bishir, Blake R. Hossack, LeeAnn Fishback, J. M. DavenportInferring presence of the western toad (Anaxyrus boreas) species complex using environmental DNA
Western toads (species complex comprised of Anaxyrus boreas, A. canorus, A. exsul, and A. nelsoni) are widely distributed in the western United States but are declining, particularly in the southeastern extent of their range. The subspecies A. b. boreas is listed as a Species of Greatest Conservation Need in New Mexico, Colorado, Utah, and Wyoming. Reliable and sensitive methods for delineating diAuthorsThomas W. Franklin, Joseph C. Dysthe, Michael Golden, Kevin S. McKelvey, Blake R. Hossack, Kellie J. Carim, Cynthia Tait, Michael K. Young, Michael K. SchwartzStatus of the threatened Chiricahua Leopard Frog and conservation challenges in Sonora, Mexico, with notes on other ranid frogs and non-native predators
In North America, ranid frogs (Ranidae) have experienced larger declines than any other amphibian family, particularly species native to the southwestern USA and adjacent Mexico; however, our knowledge of their conservation status and threats is limited in Mexico. We assessed the status of the federally listed as threatened (USA) Chiricahua Leopard Frog (Lithobates chiricahuensis) in Sonora, MexicAuthorsJames C. Rorabaugh, Blake R. Hossack, Erin L. Muths, Brent H. Sigafus, Julio A. Lemos-EspinalHeterogeneous responses of temperate-zone amphibian populations to climate change complicates conservation planning
The pervasive and unabated nature of global amphibian declines suggests common demographic responses to a given driver, and quantification of major drivers and responses could inform broad-scale conservation actions. We explored the influence of climate on demographic parameters (i.e., changes in the probabilities of survival and recruitment) using 31 datasets from temperate zone amphibian populatAuthorsErin L. Muths, Thierry A. Chambert, B. R. Schmidt, D. A. W. Miller, Blake R. Hossack, P. Joly, O. Grolet, D. M. Green, David S. Pilliod, M. Cheylan, Robert N. Fisher, R. M. McCaffery, M. J. Adams, W. J. Palen, J. W. Arntzen, J. Garwood, Gary M. Fellers, J. M. Thirion, Evan H. Campbell Grant, A. BesnardWidespread legacy brine contamination from oil production reduces survival of chorus frog larvae
Advances in drilling techniques have facilitated a rapid increase in hydrocarbon extraction from energy shales, including the Williston Basin in central North America. This area overlaps with the Prairie Pothole Region, a region densely populated with wetlands that provide numerous ecosystem services. Historical (legacy) disposal practices often released saline co-produced waters (brines) with higAuthorsBlake R. Hossack, Holly J. Puglis, William A. Battaglin, Chauncey W. Anderson, R. Ken Honeycutt, Kelly L. SmallingDeclines revisited: Long-term recovery and spatial population dynamics oftailed frog larvae after wildfire
Drought has fueled an increased frequency and severity of large wildfires in many ecosystems. Despite an increase in research on wildfire effects on vertebrates, the vast majority of it has focused on short-term (< 5 years) effects and there is still little information on the time scale of population recovery for species that decline in abundance after fire. In 2003, a large wildfire in Montana (UAuthorsBlake R. Hossack, R. Ken HoneycuttUsing decision analysis to support proactive management of emerging infectious wildlife diseases
Despite calls for improved responses to emerging infectious diseases in wildlife, management is seldom considered until a disease has been detected in affected populations. Reactive approaches may limit the potential for control and increase total response costs. An alternative, proactive management framework can identify immediate actions that reduce future impacts even before a disease is detectAuthorsEvan 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 WhiteInforming recovery in a human-transformed landscape: Drought-mediated coexistence alters population trends of an imperiled salamander and invasive predators
Understanding the additive or interactive threats of habitat transformation and invasive species is critical for conservation, especially where climate change is expected to increase the severity or frequency of drought. In the arid southwestern USA, this combination of stressors has caused widespread declines of native aquatic and semi-aquatic species. Achieving resilience to drought and other efAuthorsBlake R. Hossack, R. Ken Honeycutt, Brent H. Sigafus, Erin L. Muths, Catherine L. Crawford, Thomas R. Jones, Jeff A. Sorensen, James C. Rorabaugh, Thierry Chambert - News