Spatial synchrony, the tendency for populations across space to show correlated fluctuations, is a fundamental feature of population dynamics, linked to central topics of …
The populations of many species fluctuate in synchrony across large geographical areas. This synchrony is often attributed to the Moran effect, that is, shared environmental …
Studies of spatial population synchrony constitute a central approach for understanding the drivers of ecological dynamics. Recently, identifying the ecological impacts of climate …
The recent interest in the spatial structure and dynamics of populations motivated numerous theoretical and empirical studies of spatial synchrony, the tendency of populations to …
We examined the degree and cause of intraspecific synchrony in population dynamics between 29-42 populations for each of seven mammalian species. Regions containing …
The world is spatially autocorrelated. Both abiotic and biotic properties are more similar among neighboring than distant locations, and their temporal co‐fluctuations also decrease …
A stochastic model is developed to analyze the equilibrium spatial pattern of population synchrony, the correlation of temporal fluctuations in population density between localities …
Over large areas, synchronous fluctuations in population density are often attributed to environmental stochasticity (eg, weather) shared among local populations. This concept was …
Phenology is increasingly recognized as an important factor structuring communities because it determines when and at what life stage organisms interact. Previous work …