A non-autonomous dynamical systems framework shows metabolic constraints increasingly govern phytoplankton persistence in a warming ocean, producing a global expansion of metabolic-driven regimes and a 1:4 ratio of new viable niches to ice-free polar deserts.
Chesson, Mechanisms of maintenance of species diversity, Annual Review of Ecology, Evolution and Systematics, 31 (2000), pp
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In a stochastic model combining resource-use and growth-death trade-offs, weak growth-death trade-offs favor generalist dominance while intense trade-offs favor specialists.
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Beyond the Critical Depth: The Metabolic and Physical Drivers of Phytoplankton Persistence in a Changing Ocean
A non-autonomous dynamical systems framework shows metabolic constraints increasingly govern phytoplankton persistence in a warming ocean, producing a global expansion of metabolic-driven regimes and a 1:4 ratio of new viable niches to ice-free polar deserts.
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Population dynamics of generalist/specialist strategies in the feast-famine cycles
In a stochastic model combining resource-use and growth-death trade-offs, weak growth-death trade-offs favor generalist dominance while intense trade-offs favor specialists.