Potential change in the distribution of an abundant and wide-ranging forest salamander in a context of climate change

  • Moore J
  • Ouellet M
  • Lambert M
N/ACitations
Citations of this article
15Readers
Mendeley users who have this article in their library.

Abstract

Climate change already affects species in many ecosystems worldwide. Since climate is an important component of a species' ecological niche, up-to-date information about climatic niches is needed to model future species distributions in a context of climate change. The eastern red-backed salamander (Plethodon cinereus) is a wide-ranging woodland species and one of the most abundant verte-brates in northeastern North America. Though salamanders contrib-ute to several forest ecosystem functions, little is known about their climatic niche and future distribution. Using a dataset of 400,090 observations from 8302 localities in 5 Canadian provinces and 22 American states, we determined the current climatic niche of P. cinereus and predicted how the species' distribution could shift in a context of climate change, especially in the northern part of its range. We also aimed to document factors that could affect the spe-cies' distribution. We show that P. cinereus can live in various geo-graphic and climatic conditions and tolerate a wide range of seasonal temperatures. The species' current potential and future (until 2061-2080) distributions show a gap of up to 400 km with the northern limit of its current observed distribution. Assuming a mean coloniza-tion rate of approximately 100 m per year, we calculated that P. ci-nereus would need about 4000 years to reach the northern limit of the future distribution range modeled for the 2061-2080 period. The climate-modeled future distribution suggests that the presence of P. cinereus could decrease in the south and increase in the north. This, combined with the potential presence of habitats that are unsuitable for the species' colonization in the north and with interspecific inter-actions in the south, could induce a contraction of the species' range. Regardless of climate warming, the physical environment and natural and anthropic disturbances could also limit the species' northern post-glaciation migration. © The authors.

Cite

CITATION STYLE

APA

Moore, J.-D., Ouellet, M., & Lambert, M.-C. (2018). Potential change in the distribution of an abundant and wide-ranging forest salamander in a context of climate change. Frontiers of Biogeography, 9(4). https://doi.org/10.21425/f59433282

Register to see more suggestions

Mendeley helps you to discover research relevant for your work.

Already have an account?

Save time finding and organizing research with Mendeley

Sign up for free