Journal
ECOLOGY
Volume 91, Issue 9, Pages 2499-2505Publisher
WILEY
DOI: 10.1890/09-1914.1
Keywords
Bergmann's rule; body size; macroecology; marine fish; Northwest Atlantic; temporal dynamics
Categories
Funding
- NSERC
- Canadian Department of Fisheries and Oceans
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A strictly species-centric view of human impacts on ecological communities may conceal important trait changes key to ecosystem functioning and stability. Analyses of body size and community composition data for 326 Northwest Atlantic fish species sampled across > 900 000 km(2) over three decades revealed a rapid and widespread reduction of body sizes driven by declines within species and changes in relative abundances. The changes were unrelated to species richness but of sufficient magnitude to eliminate biogeographic scale gradients of increasing body size with latitude commonly characterized as Bergmann's rule. These changes have persisted despite reduced potential for intraspecific competition and favorable bottom water temperatures, both of which should lead to increased growth rates. The aggregate body sizes in these Northwest Atlantic fish communities may now represent a mismatch between the environmental variability characteristic of the Northwest Atlantic and the historical body size, life history traits, and productivity of species across this region. We discuss how these changes may jeopardize the potential for recovery of these important temperate/subarctic ecosystems.
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