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
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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 sufficient for
Authors
SC Sterrett, Evan H. Campbell Grant, Katz R, Adrianne Brand, William R. Fields, Dietrich A, Hocking D, Foreman T, Wiewel A
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 example, w
Authors
Evan H. Campbell Grant, Direnzo G
Amphibian conservation in the Anthropocene
Research is necessary to identify patterns in nature, to understand how a system functions, and to make predictions about the future state of an ecosystem. Applied research in conservation biology can identify effective strategies to maintain biodiversity, though many papers end with the conclusion that more research is needed. However, more research does not necessarily lead to solutions. We use
Authors
Evan H. Campbell Grant, Erin L. Muths, Benedikt R. Schmidt, Silviu Petrovan
Effect of amphibian chytrid fungus (Batrachochytrium dendrobatidis) on apparent survival of frogs and toads in the western USA
Despite increasing interest in determining the population-level effects of emerging infectious diseases on wildlife, estimating effects of disease on survival rates remains difficult. Even for a well-studied disease such as amphibian chytridiomycosis (caused by the fungus Batrachochytrium dendrobatidis [Bd]), there are few estimates of how survival of wild hosts is affected. We applied hierarchica
Authors
Robin E. Russell, Brian J. Halstead, Brittany Mosher, Erin L. Muths, Michael J. Adams, Evan H. Campbell Grant, Robert N. Fisher, Patrick M. Kleeman, Adam R. Backlin, Christopher Pearl, R. Ken Honeycutt, Blake R. Hossack
A three-pipe problem: Dealing with complexity to halt amphibian declines
Natural resource managers are increasingly faced with threats to managed ecosystems that are largely outside of their control. Examples include land development, climate change, invasive species, and emerging infectious diseases. All of these are characterized by large uncertainties in timing, magnitude, and effects on species. In many cases, the conservation of species will only be possible throu
Authors
Sarah J. Converse, Evan H. Campbell Grant
Knowing your limits: Estimating range boundaries and co-occurrence zones for two competing plethodontid salamanders
Understanding threats to species persistence requires knowledge of where species currently occur. We explore methods for estimating two important facets of species distributions, namely where the range limit occurs and how species interactions structure distributions. Accurate understanding of range limits is crucial for predicting range dynamics and shifts in response to interspecific interaction
Authors
S. M. Amburgey, D. A. W. Miller, Adrianne B. Brand, Andrea M. Dietrich, Evan H. Campbell Grant
Identifying common decision problem elements for the management of emerging fungal diseases of wildlife
Emerging infectious diseases (EIDs) of wildlife have characteristics that make them difficult to manage, leading to reactive and often ineffective management strategies. Currently, two fungal pathogens, Pseudogymnoascus destructans (Pd) and Batrachochytrium salamandrivorans (Bsal), are causing declines in novel host species. To improve the application of management strategies addressing the risk o
Authors
R. F. Bernard, Evan H. Campbell Grant
North-facing slopes and elevation shape asymmetric genetic structure in the range-restricted salamander Plethodon shenandoah
Species with narrow environmental preferences are often distributed across fragmented patches of suitable habitat, and dispersal among subpopulations can be difficult to directly observe. Genetic data collected at population centers can help quantify gene flow, which is especially important for vulnerable species with a disjunct range. Plethodon shenandoah is a Federally Endangered salamander know
Authors
KP Mulder, Nandadevi Córtes-Rodríguez, Adrianne B. Brand, Evan H. Campbell Grant, Robert C. Fleischer
Functional variation at an expressed MHC class IIß locus associates with Ranavirus infection intensity in larval anuran populations
Infectious diseases are causing catastrophic losses to biodiversity globally. Iridoviruses in the genus Ranavirus are among the leading causes of amphibian disease-related mortality. Polymorphisms in major histocompatibility complex (MHC) genes are significantly associated with variation in amphibian susceptibility to pathogens. MHC genes encode diverse cell-surface molecules that can recognize an
Authors
Anna E. Savage, Carly R. Muletz-Wolz, Evan H. Campbell Grant, Robert C. Fleischer, Kevin P. Mulder
The contribution of road-based citizen science to the conservation of pond-breeding amphibians
Roadside amphibian citizen science (CS) programmes bring together volunteers focused on collecting scientific data while working to mitigate population declines by reducing road mortality of pond‐breeding amphibians. Despite the international popularity of these movement‐based, roadside conservation efforts (i.e. “big nights,” “bucket brigades” and “toad patrols”), direct benefits to conservation
Authors
Sean Sterrett, Rachel A. Katz, William R. Fields, Evan H. Campbell Grant
Principles of translational science education
In a recent special issue in Frontiers in Ecology and the Environment,
Enquist et al. (2017) present a welcome streamlining of modern applied
ecology emphasizing a collaborative approach to applied ecological
research involving resource-managers and scientists to produce actionable
science: translational ecology (TE). The authors, including ecologists, social
scientists, and conservation professio
Authors
Chris Sutherland, B Padilla, Evan H. Campbell Grant
Disease‐structured N‐mixture models: A practical guide to model disease dynamics using count data
Obtaining inferences on disease dynamics (e.g., host population size, pathogen prevalence, transmission rate, host survival probability) typically requires marking and tracking individuals over time. While multistate mark–recapture models can produce high‐quality inference, these techniques are difficult to employ at large spatial and long temporal scales or in small remnant host populations decim
Authors
Graziella V. DiRenzo, Christian Che-Castaldo, Sarah P. Saunders, Evan H. Campbell Grant, Elise F. Zipkin
Science and Products
Filter Total Items: 20
Filter Total Items: 17
No Result Found
Filter Total Items: 132
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 sufficient for
Authors
SC Sterrett, Evan H. Campbell Grant, Katz R, Adrianne Brand, William R. Fields, Dietrich A, Hocking D, Foreman T, Wiewel A
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 example, w
Authors
Evan H. Campbell Grant, Direnzo G
Amphibian conservation in the Anthropocene
Research is necessary to identify patterns in nature, to understand how a system functions, and to make predictions about the future state of an ecosystem. Applied research in conservation biology can identify effective strategies to maintain biodiversity, though many papers end with the conclusion that more research is needed. However, more research does not necessarily lead to solutions. We use
Authors
Evan H. Campbell Grant, Erin L. Muths, Benedikt R. Schmidt, Silviu Petrovan
Effect of amphibian chytrid fungus (Batrachochytrium dendrobatidis) on apparent survival of frogs and toads in the western USA
Despite increasing interest in determining the population-level effects of emerging infectious diseases on wildlife, estimating effects of disease on survival rates remains difficult. Even for a well-studied disease such as amphibian chytridiomycosis (caused by the fungus Batrachochytrium dendrobatidis [Bd]), there are few estimates of how survival of wild hosts is affected. We applied hierarchica
Authors
Robin E. Russell, Brian J. Halstead, Brittany Mosher, Erin L. Muths, Michael J. Adams, Evan H. Campbell Grant, Robert N. Fisher, Patrick M. Kleeman, Adam R. Backlin, Christopher Pearl, R. Ken Honeycutt, Blake R. Hossack
A three-pipe problem: Dealing with complexity to halt amphibian declines
Natural resource managers are increasingly faced with threats to managed ecosystems that are largely outside of their control. Examples include land development, climate change, invasive species, and emerging infectious diseases. All of these are characterized by large uncertainties in timing, magnitude, and effects on species. In many cases, the conservation of species will only be possible throu
Authors
Sarah J. Converse, Evan H. Campbell Grant
Knowing your limits: Estimating range boundaries and co-occurrence zones for two competing plethodontid salamanders
Understanding threats to species persistence requires knowledge of where species currently occur. We explore methods for estimating two important facets of species distributions, namely where the range limit occurs and how species interactions structure distributions. Accurate understanding of range limits is crucial for predicting range dynamics and shifts in response to interspecific interaction
Authors
S. M. Amburgey, D. A. W. Miller, Adrianne B. Brand, Andrea M. Dietrich, Evan H. Campbell Grant
Identifying common decision problem elements for the management of emerging fungal diseases of wildlife
Emerging infectious diseases (EIDs) of wildlife have characteristics that make them difficult to manage, leading to reactive and often ineffective management strategies. Currently, two fungal pathogens, Pseudogymnoascus destructans (Pd) and Batrachochytrium salamandrivorans (Bsal), are causing declines in novel host species. To improve the application of management strategies addressing the risk o
Authors
R. F. Bernard, Evan H. Campbell Grant
North-facing slopes and elevation shape asymmetric genetic structure in the range-restricted salamander Plethodon shenandoah
Species with narrow environmental preferences are often distributed across fragmented patches of suitable habitat, and dispersal among subpopulations can be difficult to directly observe. Genetic data collected at population centers can help quantify gene flow, which is especially important for vulnerable species with a disjunct range. Plethodon shenandoah is a Federally Endangered salamander know
Authors
KP Mulder, Nandadevi Córtes-Rodríguez, Adrianne B. Brand, Evan H. Campbell Grant, Robert C. Fleischer
Functional variation at an expressed MHC class IIß locus associates with Ranavirus infection intensity in larval anuran populations
Infectious diseases are causing catastrophic losses to biodiversity globally. Iridoviruses in the genus Ranavirus are among the leading causes of amphibian disease-related mortality. Polymorphisms in major histocompatibility complex (MHC) genes are significantly associated with variation in amphibian susceptibility to pathogens. MHC genes encode diverse cell-surface molecules that can recognize an
Authors
Anna E. Savage, Carly R. Muletz-Wolz, Evan H. Campbell Grant, Robert C. Fleischer, Kevin P. Mulder
The contribution of road-based citizen science to the conservation of pond-breeding amphibians
Roadside amphibian citizen science (CS) programmes bring together volunteers focused on collecting scientific data while working to mitigate population declines by reducing road mortality of pond‐breeding amphibians. Despite the international popularity of these movement‐based, roadside conservation efforts (i.e. “big nights,” “bucket brigades” and “toad patrols”), direct benefits to conservation
Authors
Sean Sterrett, Rachel A. Katz, William R. Fields, Evan H. Campbell Grant
Principles of translational science education
In a recent special issue in Frontiers in Ecology and the Environment,
Enquist et al. (2017) present a welcome streamlining of modern applied
ecology emphasizing a collaborative approach to applied ecological
research involving resource-managers and scientists to produce actionable
science: translational ecology (TE). The authors, including ecologists, social
scientists, and conservation professio
Authors
Chris Sutherland, B Padilla, Evan H. Campbell Grant
Disease‐structured N‐mixture models: A practical guide to model disease dynamics using count data
Obtaining inferences on disease dynamics (e.g., host population size, pathogen prevalence, transmission rate, host survival probability) typically requires marking and tracking individuals over time. While multistate mark–recapture models can produce high‐quality inference, these techniques are difficult to employ at large spatial and long temporal scales or in small remnant host populations decim
Authors
Graziella V. DiRenzo, Christian Che-Castaldo, Sarah P. Saunders, Evan H. Campbell Grant, Elise F. Zipkin