Primary productivity declines when species composition and climate are mismatched
Stemkovski, M.; Clark-Wolf, K.; Dee, L. E.; Dobson, K. C.; Felton, A. J.; Goncalves-Souza, T.; Hooker, G.; Hooten, M.; Johnson, L. C.; Morales, M.; Osborne, B. B.; Pinsky, M. L.; Reich, P. B.; Rollinson, C. E.; Song, Y.; Ward, N. K.; Zhu, K.; Adler, P. B.
Show abstract
Climate change drives shifts in species composition, but turnover in many communities lags behind the current pace of change. Anticipating the impact of the resulting community-climate disequilibria on ecosystem functioning is critical. Present-day communities may already be out of equilibrium with climate, providing an opportunity to estimate the effects of disequilibrium before they become more widespread. We analyzed plant community composition and function data from [~]60,000 rangeland monitoring sites across the western US to measure how community-climate disequilibrium contributes to spatial and temporal variation in net primary productivity (NPP) - a key ecosystem function. We found that communities were already substantially out of equilibrium with climate and accounting for this disequilibrium helped explain patterns of NPP. Communities farthest from equilibrium were less productive than those that were closely matched with climate. Our findings suggest that future increases in community-climate disequilibrium may further impair ecosystem functioning.
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