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BIOGEOGRAPHIC DISTRIBUTIONS, ABUNDANCES, AND VULNERABILITIES TO CLIMATE CHANGE OF BRACHYURAN AND LITHODID CRABS FROM THE GULF OF CALIFORNIA TO THE BEAUFORT SEA - 9-19-2014
Citation:
Folger, C., H. Lee, K. Marko, D. Reuesser, AND R. Graham. BIOGEOGRAPHIC DISTRIBUTIONS, ABUNDANCES, AND VULNERABILITIES TO CLIMATE CHANGE OF BRACHYURAN AND LITHODID CRABS FROM THE GULF OF CALIFORNIA TO THE BEAUFORT SEA - 9-19-2014. Presented at PNW Climate Science Meeting, Seattle, WA, September 09 - 10, 2014.
Impact/Purpose:
To assess the vulnerability of nearshore invertebrates species (crabs) to climate change. Assessing the abundance and distribution in combination with natural history traits (endemnicity, physiological tolerance, commensalism, etc) allows us to rate an individual species vulnerability to forcasted change in temperature and habitat pertubations.
Description:
As part of an EPA/USGS project to predict the relative vulnerability of near-coastal species to climate change we analyzed the biogeographic and abundance patterns of the brachyuran or ‘True’ crabs (n=368) and lithodid or ‘King’ crabs (n=20) that are found in the twelve MEOW (“Marine Ecosystems of the World”) ecoregions between the Gulf of California (GOC) and Beaufort Sea at depths <200 m. To assess the vulnerability of each species we used species trait data queried from the “Coastal Biogeographic Risk Analysis Tool” (CBRAT), a web-based ecoinformatics tool created jointly by the USGS and EPA Species at Risk group. Species richness per ecoregion increases steadily from the Beaufort (n=3) to Southern California (n=138) and more than doubles between the Magdalena and the GOC ecoregions (138 and 298 species respectively). We calculated relative abundance values by analyzing extensive data sets augmented by qualitative data from expert taxonomists; allowing us to assign 78% of crab species to at least a Rare, Moderate or Abundant classification. Distribution characteristics, abundance patterns, specialization and depth were examined to predict the degree of stress or potential resilience to climate change. The degree of relative climate vulnerably generally follows a south to north pattern with more species rated ‘highly vulnerable’ in the southern warm temperate ecoregions and ‘None Known/Low’ in the northern Arctic ecoregions. Out of the 388 total crab species 170 were assigned a ‘high’ ranking for climate vulnerability in one or more ecoregions. Traits such as commensalism, intertidal habitat, and endemicity were the three most determinant factors contributing to a high vulnerability rating. The pinnotherid crabs are the family at greatest risk largely because of their symbiotic strategy and generally rare abundances.