RT Journal Article
SR Electronic
T1 Marine Taxa Track Local Climate Velocities
JF Science
JO Science
FD American Association for the Advancement of Science
SP 1239
OP 1242
DO 10.1126/science.1239352
VO 341
IS 6151
A1 Pinsky, Malin L.
A1 Worm, Boris
A1 Fogarty, Michael J.
A1 Sarmiento, Jorge L.
A1 Levin, Simon A.
YR 2013
UL http://science.sciencemag.org/content/341/6151/1239.abstract
AB Early responses of species to climate change seemed to predict a general poleward response (or upward in mountains and downward in the ocean). Pinsky et al. (p. 1239) test an alternative hypothesis that relates more to the nature of climate change than to changes in temperature. Using nearly 50 years of coastal survey data on >350 marine taxa, they found that climate velocity was a much better predictor of patterns of change than individual species' characteristics or life histories. The findings suggest that responses to climate change largely track changes in local conditions.Organisms are expected to adapt or move in response to climate change, but observed distribution shifts span a wide range of directions and rates. Explanations often emphasize biological distinctions among species, but general mechanisms have been elusive. We tested an alternative hypothesis: that differences in climate velocity—the rate and direction that climate shifts across the landscape—can explain observed species shifts. We compiled a database of coastal surveys around North America from 1968 to 2011, sampling 128 million individuals across 360 marine taxa. Climate velocity explained the magnitude and direction of shifts in latitude and depth much more effectively than did species characteristics. Our results demonstrate that marine species shift at different rates and directions because they closely track the complex mosaic of local climate velocities.