Abiotic stress and biotic factors mediate range dynamics on opposing edges

Alexej P. K. Sirén, Christopher S. Sutherland, Christopher A. Bernier, Kimberly J. Royar, Jillian R. Kilborn, Catherine B. Callahan, Rachel M. Cliché, Leighlan S. Prout, Toni Lyn Morelli

Research output: Contribution to journalArticlepeer-review

Abstract

Aim
In the face of global change, understanding causes of range limits are one of the most pressing needs in biogeography and ecology. A prevailing hypothesis is that abiotic stress forms cold (upper latitude/altitude) limits, whereas biotic interactions create warm (lower) limits. A new framework - Interactive Range-Limit Theory (iRLT) - asserts that positive biotic factors such as food availability can ameliorate abiotic stress along cold edges, whereas abiotic stress can have a positive effect and mediate biotic interactions (e.g., competition) along warm limits.

Location
Northeastern United States Taxon Carnivora

Methods
We evaluated two hypotheses of iRLT using occupancy and structural equation modeling (SEM) frameworks based on data collected over a 6-year period (2014?2019) of six carnivore species across a broad latitudinal (42.8-45.3°N) and altitudinal (3-1451 m) gradient.
Results
We found that snow directly limits populations, but prey or habitat availability can influence range dynamics along cold edges. For example, bobcats (Lynx rufus) and coyotes (Canis latrans) were limited by deep snow and long winters, but the availability of prey had a strong positive effect. Conversely, snow had a strong positive effect on the warm limits of Canada lynx (Lynx canadensis), countering the negative effect of competition with the phylogenetically similar bobcat and with coyotes, highlighting how climate mediates competition between species.

Main conclusions
We used an integrated dataset that included competitors and prey species collected at the same spatial and temporal scale. As such, this design, along with a causal modeling framework (SEM), allowed us to evaluate community-wide hypotheses at macroecological scales and identify coarse-scale drivers of species' range limits. Our study supports iRLT and underscores the need to consider direct and indirect mechanisms for studying range dynamics and species' responses to global change.
Original languageEnglish
Number of pages15
JournalJournal of Biogeography
VolumeEarly view
Early online date5 Apr 2021
DOIs
Publication statusE-pub ahead of print - 5 Apr 2021

Keywords

  • Abiotic stress
  • Biotic interactions
  • Carnivores
  • Climate change
  • Competition
  • Range limits
  • Snow
  • Structural equation modeling

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