Open Access
Stability and complexity in model ecosystems.
Robert M. May
- Vol. 6, pp 1-235
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The article was published on 1973-01-01 and is currently open access. It has received 5524 citations till now.read more
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Distributed delays facilitate amplitude death of coupled oscillators.
TL;DR: Coupled oscillators are shown to experience amplitude death for a much larger set of parameter values when they are connected with time delays distributed over an interval rather than concentrated at a point.
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Disturbance‐driven changes in the variability of ecological patterns and processes
TL;DR: By considering variability as a response to disturbance, this paper gains another metric of fundamental system behaviour, an improved ability to identify organizing features of ecosystems and a better understanding of the predictability of disturbance-driven change - all critical aspects of assessing ecosystem response to disturbances.
Journal ArticleDOI
A Complex Community in a Simple Habitat: An Experimental Study with Bacteria and Phage
TL;DR: The fit of these observations to some previously developed theory of resource—limited growth, competition and predation is discussed and a mechanism to account for the persistence of these communities is presented.
Journal ArticleDOI
Predicting ecosystem stability from community composition and biodiversity
Claire de Mazancourt,Claire de Mazancourt,Forest Isbell,Forest Isbell,Allen Larocque,Frank Berendse,Enrica De Luca,James B. Grace,Bart Haegeman,Bart Haegeman,H. Wayne Polley,Christiane Roscher,Bernhard Schmid,David Tilman,Jasper van Ruijven,Alexandra Weigelt,Brian J. Wilsey,Michel Loreau,Michel Loreau +18 more
TL;DR: A theory that predicts the temporal variability of community biomass from the properties of individual component species in monoculture shows that biodiversity stabilises ecosystems through three main mechanisms: asynchrony in species' responses to environmental fluctuations, reduced demographic stochasticity due to overyielding in species mixtures and reduced observation error.
Journal ArticleDOI
Symmetrical overhead in flow networks
TL;DR: Employing the joint entropy, instead of the conditional entropy, to characterize the overhead, results in a symmetrical overhead and also permits the decomposition of the system capacity, or complexity, into components useful in following the response of the whole system to perturbations.