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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A Mathematical Theory for Single-Nutrient Competition in Continuous Cultures of Micro-Organisms
TL;DR: The paper studies a mathematical model, based on Michaelis-Menten kinetics, for one substrate and n competing species, and answers the basic question as to which species survive and which do not, and determines the limiting behaviors.
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A kinetic model of Phanerozoic taxonomic diversity I. Analysis of marine orders
TL;DR: This model appears to describe adequately the “explosive” diversification of known metazoan orders across the Precambrian-Cambrian Boundary, suggesting that no special event, other than the initial appearance of Metazoa, is necessary to explain this phenomenon.
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The link between international trade and the global distribution of invasive alien species
TL;DR: The findings provide support to the idea that more resources for combating IAS should be directed at the introduction stage and that novel trade instruments need to be explored to account for this environmental externality.
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Bacterial diversity promotes community stability and functional resilience after perturbation
TL;DR: The findings indicate that, although soil communities may be robust, relationships between diversity and stability need to be considered in developing a predictive understanding of response to environmental perturbations.
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Diversity predicts stability and resource use efficiency in natural phytoplankton communities.
Robert Ptacnik,Angelo G. Solimini,Tom Andersen,Tom Andersen,Timo Tamminen,Pål Brettum,Liisa Lepistö,Eva Willén,Seppo Rekolainen +8 more
TL;DR: It is shown here that phytoplankton resource use, and thus carbon fixation, is directly linked to the diversity of phytopsized communities, and that the diversity requirement for stable ecosystem functioning scales with the nutrient level (total phosphorus), as evidenced by the opposing effects of diversity and resource level on the variability of both resource use and community composition.