Population asynchrony within and between trophic levels have contrasting effects on consumer community stability in a subtropical lake

Abstract: Clarifying the effects of biodiversity on ecosystem stability in the context of global environmental change is crucial for maintaining ecosystem functions and services. Asynchronous changes between trophic levels over time (i.e. trophic community asynchrony) are expected to increase trophic mismatch and alter trophic interactions, which may consequently alter ecosystem stability. However, previous studies have often highlighted the stabilising mechanism of population asynchrony within a single trophic level, w… Show more

Population asynchrony within and between trophic levels have contrasting effects on consumer community stability in a subtropical lake

Population asynchrony within and between trophic levels have contrasting effects on consumer community stability in a subtropical lake