Affiliation:
1. Geographical Ecology Group, Department of Biology University of Oklahoma Norman Oklahoma USA
2. Conservation Ecology Center Smithsonian's National Zoo and Conservation Biology Institute Front Royal Virginia USA
3. Department of Zoology University of British Columbia Vancouver British Columbia Canada
4. Sam Noble Oklahoma Museum of Natural History University of Oklahoma Norman Oklahoma USA
5. Laboratory of Geo‐Information Science and Remote Sensing Wageningen University and Research Wageningen Netherlands
Abstract
AbstractBody size is a key functional trait governing how an animal community transforms resources and conditions into performance, abundance, and fitness. Here we use the National Ecological Observatory Network of pitfall traps to explore how an ecosystem's plant productivity, temperature, and growing season length accounts for the range of body size across 99 ground invertebrate communities. The 19‐fold continental variation in mean body size failed to covary with latitude, while common ordinal subtaxa grew smaller (e.g., myriapods) to larger (e.g., acari) from Puerto Rico to Alaska. Communities with a larger mean size arose when winters were longer and gross primary productivity was high. The diversity of body sizes in a community (measured as the CV) varied ninefold and decreased with latitude (r2 = 0.24) consistently across common orders. Size‐diverse communities were less likely in ecosystems with long winters (suggesting constraints on the time to build, r2 = 0.34) and those with high invertebrate activity (and hence trap catch, r2 = 0.12). Body size distributions thus appeared to arise from conflicting combinations of constraint (i.e., the ability to build large bodies) and performance (utility of large size in surviving long winters). As warming promotes growing season length, populations of larger, rarer individuals may benefit.
Funder
Natural Sciences and Engineering Research Council of Canada
National Science Foundation