4.5 Article

Abundance of montane salamanders over an elevational gradient

Journal

ECOLOGY AND EVOLUTION
Volume 11, Issue 3, Pages 1378-1391

Publisher

WILEY
DOI: 10.1002/ece3.7142

Keywords

amphibian; climate change; Great Smoky Mountains National Park; N‐ mixture model; Plethodontidae

Funding

  1. National Geographic Society [W203-11]

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This study focused on establishing baseline abundance estimates for plethodontid salamanders in Great Smoky Mountains National Park, and found that abundance was influenced by elevation, litter depth, herbaceous ground cover, and proximity to stream. These data provide valuable information for future studies assessing changes in salamander abundance and distribution in the region.
Climate change is expected to systematically alter the distribution and population dynamics of species around the world. The effects are expected to be particularly strong at high latitudes and elevations, and for ectothermic species with small ranges and limited movement potential, such as salamanders in the southern Appalachian Mountains. In this study, we sought to establish baseline abundance estimates for plethodontid salamanders (family: Plethodontidae) over an elevational gradient in Great Smoky Mountains National Park. In addition to generating these baseline data for multiple species, we describe methods for surveying salamanders that allow for meaningful comparisons over time by separating observation and ecological processes generating the data. We found that Plethodon jordani had a mid-elevation peak (1,500 m) in abundance and Desmognathus wrighti increased in abundance with elevation up to the highest areas of the park (2025 m), whereas Eurycea wilderae increased in abundance up to 1,600 m and then plateaued with increasing uncertainty. Litter depth, herbaceous ground cover, and proximity to stream were also important predictors of abundance (dependent upon species), whereas daily temperature, precipitation, ground cover, and humidity influenced detection rates. Our data provide some of the first minimally biased information for future studies to assess changes in the abundance and distribution of salamanders in this region. Understanding abundance patterns along with detailed baseline distributions will be critical for comparisons with future surveys to understand the population and community-level effects of climate change on montane salamanders.

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