TROPHIC LEVELS ARE DIFFERENTIALLY SENSITIVE TO CLIMATE

Winfried Voigt; Jörg Perner; Andrew Davis; Till Eggers; Jens Schumacher; Rudolf Bährmann; Bärbel Fabian; Wolfgang Heinrich; Günter Köhler; Dorit Lichter; Rolf Marstaller; Friedrich W. Sander

doi:10.1890/02-0266

TROPHIC LEVELS ARE DIFFERENTIALLY SENSITIVE TO CLIMATE

Winfried Voigt(Friedrich Schiller University Jena), Jörg Perner(Friedrich Schiller University Jena), Andrew Davis(Hokkaido University), Till Eggers(Hochschule Osnabrück), Jens Schumacher(Friedrich Schiller University Jena), Rudolf Bährmann(Friedrich Schiller University Jena), Bärbel Fabian(Friedrich Schiller University Jena), Wolfgang Heinrich(Friedrich Schiller University Jena), Günter Köhler(Friedrich Schiller University Jena), Dorit Lichter(Friedrich Schiller University Jena), Rolf Marstaller(Friedrich Schiller University Jena), Friedrich W. Sander(Friedrich Schiller University Jena)

Ecology

September 1, 2003

10.1890/02-0266

Cited by 474

Abstract

Predicting the response of communities to climate change is a major challenge for ecology. Communities may well not respond as entities but be disrupted, particularly if trophic levels respond differently, but as yet there is no evidence for differential responses from natural systems. We therefore analyzed unusually detailed plant and animal data collected over 20 years from two grassland communities to determine whether functional group climate sensitivity differed between trophic levels. We found that sensitivity increases significantly with increasing trophic level. This differential sensitivity would lead to community destabilization under climate change, not simple geographical shifts, and consequently must be incorporated in predictive ecological climate models.

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