Abiotic and biotic factors reduce the viability of a high‐elevation salamander in its native range

Amphibian populations are undergoing worldwide declines, and high‐elevation, range‐restricted amphibian species may be particularly vulnerable to environmental stressors. In particular, future climate change may have disproportional impacts to these ecosystems. Evaluating the combined effects of abi...

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Bibliographic Details
Published inThe Journal of applied ecology Vol. 60; no. 8; pp. 1684 - 1697
Main Authors Campbell Grant, Evan H., DiRenzo, Graziella V., Brand, Adrianne B.
Format Journal Article
LanguageEnglish
Published Oxford Blackwell Publishing Ltd 01.08.2023
Subjects
abiotic
amphibian declines
Biotic factors
biotic interactions
Climate change
Colonization
Decision making
Endangered & extinct species
Endangered species
Environmental stress
high elevation
interspecific competition
management
occupancy models
Parameters
Population
Population status
population viability analysis
Projection model
Species extinction
Threatened species
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Summary:Amphibian populations are undergoing worldwide declines, and high‐elevation, range‐restricted amphibian species may be particularly vulnerable to environmental stressors. In particular, future climate change may have disproportional impacts to these ecosystems. Evaluating the combined effects of abiotic changes and biotic interactions simultaneously is important for forecasting the range of future outcomes. This information is necessary to aid conservation decision‐making. We use field data to estimate population demographic parameters for an exemplary high‐elevation amphibian species, the federally endangered Shenandoah salamander Plethodon shenandoah. These parameters were entered into a Markov projection model which we used to forecast the future population status of the Shenandoah salamander. We found that if the population maintains its current site colonization and persistence rates, it is at the risk of extinction that could be exacerbated by both climate and interspecific competition. Synthesis and applications. Managers have a fundamental objective directed by official policy of maintaining the species ‘for the foreseeable future’. Our evaluation of multiple hypotheses about population drivers reveals that extinction is projected for this species. Our analysis suggests that considering active management need not depend on resolving the uncertainty. Managers have a fundamental objective directed by official policy of maintaining the species ‘for the foreseeable future’. Our evaluation of multiple hypotheses about population drivers reveals that extinction is projected for this species. Our analysis suggests that considering active management need not depend on resolving the uncertainty.
Bibliography:Graziella V. DiRenzo—The work was conducted while a visiting scientist with the U.S. Geological Survey at the Patuxent Wildlife Research Center.
ISSN:0021-8901
1365-2664
DOI:10.1111/1365-2664.14431