Evan Grant, Ph.D.
Evan Grant the principle investigator of the US Geological Survey’s Amphibian Research and Monitoring Initiative (ARMI), northeast region.
Evan's research focuses on questions relating to amphibian populations, specifically with respect to their landscape-scale ecology. Evan also uses decision science to aid resource managers.
Education:
- PhD, 2009, University of Maryland College Park, Program of Marine, Estuarine and Environmental Sciences and Department of Entomology
- BS, 2001, Cornell University, Natural Resources, with Distinction in Research
ResearcherID: N-5160-2014
Research Gate profile: http://www.researchgate.net/profile/Evan_Grant2
Science and Products
Filter Total Items: 20
Filter Total Items: 20
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A synthesis of evidence of drivers of amphibian declines
Early calls for robust long-term time series of amphibian population data, stemming from discussion following the first World Congress of Herpetology, are now being realized after 25 yr of focused research. Inference from individual studies and locations have contributed to a basic consensus on drivers of amphibian declines. Until recently there were no large-scale syntheses of long-term...
Authors
Evan H. Campbell Grant, D. S. Miller, Erin L. Muths
Effects of snowpack, temperature, and disease on the demography of a wild population of amphibians
Understanding the demographic consequences of interactions among pathogens, hosts, and weather conditions is critical in determining how amphibian populations respond to disease and in identifying site-specific conservation actions that can be developed to bolster persistence of amphibian populations. We investigated population dynamics in Boreal Toads (Anaxyrus boreas) relative to...
Authors
Erin L. Muths, Blake Hossack, Evan H. Campbell Grant, David Pilliod, Brittany Mosher
Assessing the risks posed by SARS-CoV-2 in and via North American bats — Decision framing and rapid risk assessment
The novel β-coronavirus, SARS-CoV-2, may pose a threat to North American bat populations if bats are exposed to the virus through interaction with humans, if the virus can subsequently infect bats and be transmitted among them, and if the virus causes morbidity or mortality in bats. Further, if SARS-CoV-2 became established in bat populations, it could possibly serve as a source for new...
Authors
Michael Runge, Evan H. Campbell Grant, Jeremy T.H. Coleman, Jonathan D. Reichard, Samantha E.J. Gibbs, Paul M. Cryan, Kevin J. Olival, Daniel P. Walsh, David S. Blehert, M. Camille Hopkins, Jonathan M. Sleeman
Identifying research needs to inform white-nose syndrome management decisions
Ecological understanding of host–pathogen dynamics is the basis for managing wildlife diseases. Since 2008, federal, state, and provincial agencies and tribal and private organizations have collaborated on bat and white‐nose syndrome (WNS) surveillance and monitoring, research, and management programs. Accordingly, scientists and managers have learned a lot about the hosts, pathogen, and...
Authors
Riley Fehr Bernard, Jonathan D. Reichard, Jeremy T.H. Coleman, Julie C. Blackwood, Michelle L. Verant, Jordi L. Segers, Jeffrey M. Lorch, John R. White, M.S. Moore, Amy M. Russell, Rachel A. Katz, Daniel L. Linder, Rick S. Toomey, Gregory G. Turner, Winifred F. Frick, Maarten J. Vonhof, Craig K. R. Willis, Evan H. Campbell Grant
How do we stop fungal disease from devastating North American salamanders
No abstract available.
Authors
K Periera, Margaret L Gray, Jacob L. Kerby, Evan H. Campbell Grant, Jamie Voyles
Factors facilitating co-occurrence at the Range Boundary of Shenandoah and Red-backed Salamanders
The transition from species in allopatry to sympatry, i.e., the co-occurrence zone of competing species, allows for investigation of forces structuring range limits and provides evidence of the evolutionary and population responses of competing species, including mechanisms facilitating co-occurrence (e.g., character displacement). The Shenandoah Salamander (Plethodon shenandoah), an...
Authors
Staci M. Amburgey, David Miller, Adrianne Brand, Andrew E. Dietrich, Evan H. Campbell Grant
A hierarchical analysis of habitat area, connectivity, and quality on amphibian diversity across spatial scales
Habitat fragmentation can alter species distributions and lead to reduced diversity at multiple scales. Yet, the literature describing fragmentation effects on biodiversity patterns is contradictory and inconclusive, possibly because most studies fail to integrate spatial scale into experimental designs and statistical analyses. As a result, it is difficult to extrapolate the effects of...
Authors
AD Wright, Evan H. Campbell Grant, Elise Zipkin
Mapping climate change resistant vernal pools in the northeastern U.S.
Vernal pools are seasonal wetlands that provide important breeding habitat for a variety of amphibian species. As future climate projections indicate warmer growing seasons and earlier seasonal increases in evapotranspiration, some managers of vernal pools have expressed concern that pools may dry earlier in the season, potentially interfering with completion of amphibian life cycles. In...
Authors
Jennifer M. Cartwright, Evan H. Campbell Grant
Successful molecular detection studies require clear communication among diverse research partners
Molecular detection techniques are powerful tools used in ecological applications ranging from diet analyses to pathogen surveillance. Research partnerships that use these tools often involve collaboration among professionals with expertise in field biology, laboratory techniques, quantitative modeling, wildlife disease, and natural resource management. However, in many cases, each of...
Authors
B. A. Mosher, R. F. Bernard, Jeffrey M. Lorch, D. S. Miller, Katherine Richgels, C. LeAnn White, Evan H. Campbell Grant
Different management strategies are optimal for combating disease in East Texas cave versus culvert hibernating bat populations
Management decisions for species impacted by emerging infectious diseases are challenging when there are uncertainties in the effectiveness of management actions. Wildlife managers must balance trade‐offs between mitigating the effects of the disease and the associated consequences on other aspects of the managed system. An example of this challenge is exemplified in the response to...
Authors
Riley Fehr Bernard, Jonah Evans, Nathan W. Fuller, Jonathan D. Reichard, Jeremy T.H. Coleman, Christina J. Kocer, Evan H. Campbell Grant
Overview of emerging amphibian pathogens and modeling advances for conservation-related decisions
One of the leading causes of global amphibian decline is emerging infectious disease. We summarize the disease ecology of four major emerging amphibian infectious agents: chytrids, ranaviruses, trematodes, and Perkinsea. We focus on recently developed quantitative advances that build on well-established ecological theories and aid in studying epizootic and enzootic disease dynamics. For...
Authors
Evan H. Campbell Grant, Direnzo G
Proactive management of amphibians: Challenges and opportunities
Delaying species management reduces the chance of successful recovery, increases the risk of extinction, and can be expensive. Acting before major declines are realized affords access to a greater suite of cost-effective management actions to sustain populations, reducing the likelihood of declines warranting protected status. It is clear that reactive management approaches are not...
Authors
SC Sterrett, Evan H. Campbell Grant, Katz R, Adrianne Brand, William R. Fields, Dietrich A, Hocking D, Foreman T, Wiewel A
Science and Products
Filter Total Items: 20
Filter Total Items: 20
No Result Found
Filter Total Items: 143
A synthesis of evidence of drivers of amphibian declines
Early calls for robust long-term time series of amphibian population data, stemming from discussion following the first World Congress of Herpetology, are now being realized after 25 yr of focused research. Inference from individual studies and locations have contributed to a basic consensus on drivers of amphibian declines. Until recently there were no large-scale syntheses of long-term...
Authors
Evan H. Campbell Grant, D. S. Miller, Erin L. Muths
Effects of snowpack, temperature, and disease on the demography of a wild population of amphibians
Understanding the demographic consequences of interactions among pathogens, hosts, and weather conditions is critical in determining how amphibian populations respond to disease and in identifying site-specific conservation actions that can be developed to bolster persistence of amphibian populations. We investigated population dynamics in Boreal Toads (Anaxyrus boreas) relative to...
Authors
Erin L. Muths, Blake Hossack, Evan H. Campbell Grant, David Pilliod, Brittany Mosher
Assessing the risks posed by SARS-CoV-2 in and via North American bats — Decision framing and rapid risk assessment
The novel β-coronavirus, SARS-CoV-2, may pose a threat to North American bat populations if bats are exposed to the virus through interaction with humans, if the virus can subsequently infect bats and be transmitted among them, and if the virus causes morbidity or mortality in bats. Further, if SARS-CoV-2 became established in bat populations, it could possibly serve as a source for new...
Authors
Michael Runge, Evan H. Campbell Grant, Jeremy T.H. Coleman, Jonathan D. Reichard, Samantha E.J. Gibbs, Paul M. Cryan, Kevin J. Olival, Daniel P. Walsh, David S. Blehert, M. Camille Hopkins, Jonathan M. Sleeman
Identifying research needs to inform white-nose syndrome management decisions
Ecological understanding of host–pathogen dynamics is the basis for managing wildlife diseases. Since 2008, federal, state, and provincial agencies and tribal and private organizations have collaborated on bat and white‐nose syndrome (WNS) surveillance and monitoring, research, and management programs. Accordingly, scientists and managers have learned a lot about the hosts, pathogen, and...
Authors
Riley Fehr Bernard, Jonathan D. Reichard, Jeremy T.H. Coleman, Julie C. Blackwood, Michelle L. Verant, Jordi L. Segers, Jeffrey M. Lorch, John R. White, M.S. Moore, Amy M. Russell, Rachel A. Katz, Daniel L. Linder, Rick S. Toomey, Gregory G. Turner, Winifred F. Frick, Maarten J. Vonhof, Craig K. R. Willis, Evan H. Campbell Grant
How do we stop fungal disease from devastating North American salamanders
No abstract available.
Authors
K Periera, Margaret L Gray, Jacob L. Kerby, Evan H. Campbell Grant, Jamie Voyles
Factors facilitating co-occurrence at the Range Boundary of Shenandoah and Red-backed Salamanders
The transition from species in allopatry to sympatry, i.e., the co-occurrence zone of competing species, allows for investigation of forces structuring range limits and provides evidence of the evolutionary and population responses of competing species, including mechanisms facilitating co-occurrence (e.g., character displacement). The Shenandoah Salamander (Plethodon shenandoah), an...
Authors
Staci M. Amburgey, David Miller, Adrianne Brand, Andrew E. Dietrich, Evan H. Campbell Grant
A hierarchical analysis of habitat area, connectivity, and quality on amphibian diversity across spatial scales
Habitat fragmentation can alter species distributions and lead to reduced diversity at multiple scales. Yet, the literature describing fragmentation effects on biodiversity patterns is contradictory and inconclusive, possibly because most studies fail to integrate spatial scale into experimental designs and statistical analyses. As a result, it is difficult to extrapolate the effects of...
Authors
AD Wright, Evan H. Campbell Grant, Elise Zipkin
Mapping climate change resistant vernal pools in the northeastern U.S.
Vernal pools are seasonal wetlands that provide important breeding habitat for a variety of amphibian species. As future climate projections indicate warmer growing seasons and earlier seasonal increases in evapotranspiration, some managers of vernal pools have expressed concern that pools may dry earlier in the season, potentially interfering with completion of amphibian life cycles. In...
Authors
Jennifer M. Cartwright, Evan H. Campbell Grant
Successful molecular detection studies require clear communication among diverse research partners
Molecular detection techniques are powerful tools used in ecological applications ranging from diet analyses to pathogen surveillance. Research partnerships that use these tools often involve collaboration among professionals with expertise in field biology, laboratory techniques, quantitative modeling, wildlife disease, and natural resource management. However, in many cases, each of...
Authors
B. A. Mosher, R. F. Bernard, Jeffrey M. Lorch, D. S. Miller, Katherine Richgels, C. LeAnn White, Evan H. Campbell Grant
Different management strategies are optimal for combating disease in East Texas cave versus culvert hibernating bat populations
Management decisions for species impacted by emerging infectious diseases are challenging when there are uncertainties in the effectiveness of management actions. Wildlife managers must balance trade‐offs between mitigating the effects of the disease and the associated consequences on other aspects of the managed system. An example of this challenge is exemplified in the response to...
Authors
Riley Fehr Bernard, Jonah Evans, Nathan W. Fuller, Jonathan D. Reichard, Jeremy T.H. Coleman, Christina J. Kocer, Evan H. Campbell Grant
Overview of emerging amphibian pathogens and modeling advances for conservation-related decisions
One of the leading causes of global amphibian decline is emerging infectious disease. We summarize the disease ecology of four major emerging amphibian infectious agents: chytrids, ranaviruses, trematodes, and Perkinsea. We focus on recently developed quantitative advances that build on well-established ecological theories and aid in studying epizootic and enzootic disease dynamics. For...
Authors
Evan H. Campbell Grant, Direnzo G
Proactive management of amphibians: Challenges and opportunities
Delaying species management reduces the chance of successful recovery, increases the risk of extinction, and can be expensive. Acting before major declines are realized affords access to a greater suite of cost-effective management actions to sustain populations, reducing the likelihood of declines warranting protected status. It is clear that reactive management approaches are not...
Authors
SC Sterrett, Evan H. Campbell Grant, Katz R, Adrianne Brand, William R. Fields, Dietrich A, Hocking D, Foreman T, Wiewel A