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How environmental drivers of spatial synchrony interact

Daniel C. Reuman, Max C. N. Castorani, Kyle C. Cavanaugh, Lawrence W. Sheppard, Jonathan A. Walter, Tom W. Bell

2023Ecography14 citationsDOIOpen Access PDF

Abstract

Spatial synchrony, the tendency for populations across space to show correlated fluctuations, is a fundamental feature of population dynamics, linked to central topics of ecology such as population cycling, extinction risk, and ecosystem stability. A common mechanism of spatial synchrony is the Moran effect, whereby spatially synchronized environmental signals drive population dynamics and hence induce population synchrony. After reviewing recent progress in understanding Moran effects, we here elaborate a general theory of how Moran effects of different environmental drivers acting on the same populations can interact, either synergistically or destructively, to produce either substantially more or markedly less population synchrony than would otherwise occur. We provide intuition for how this newly recognized mechanism works through theoretical case studies and application of our theory to California populations of giant kelp. We argue that Moran interactions should be common. Our theory and analysis explain an important new aspect of a fundamental feature of spatiotemporal population dynamics.

Topics & Concepts

PopulationEcologyMechanism (biology)IntuitionEcosystemSpatial ecologyPopulation cycleExtinction (optical mineralogy)BiologyCognitive sciencePsychologyPhilosophyDemographyPaleontologyPredationSociologyEpistemologyAnimal Ecology and Behavior StudiesPlant and animal studiesEcology and Vegetation Dynamics Studies
How environmental drivers of spatial synchrony interact | Litcius