The effect of environmental variation on stable coexistence of competitors: experimental evidence from zooplankton (Daphnia magna and D. pulex)
Sigurd Einum, Tim Burton, Silje M Larsen, Varsha Rani, Aline M Lee

TL;DR
Environmental variation, like fluctuating temperatures, helps two competing zooplankton species coexist by reducing dominance and preventing extinction.
Contribution
Empirical evidence showing that temperature fluctuations promote stable coexistence between Daphnia magna and D. pulex.
Findings
Constant temperature conditions led to D. pulex dominating over D. magna.
Fluctuating temperatures reduced dominance and allowed stable coexistence.
Simulations showed no extinction risk for D. magna under variable temperatures.
Abstract
Coexistence of competing species may be influenced by environmental variation. Specifically, theory suggests that short-term environmental variability can contribute to long-term coexistence among competitors. Here, we address the role of environmental variation on competitive interactions between two zooplankton species (Daphnia magna and D. pulex) which are found sympatrically, but where mechanisms allowing for such coexistence remain unclear. Using competition experiments, we show that under constant temperature conditions, one of the species (D. magna) was greatly outnumbered by their competitor (D. pulex). Furthermore, population simulations showed a significant possibility for extinction of the inferior competitor, and distributions of estimated niche differences and relative fitness differences included parameter sets that precluded stable coexistence. Under fluctuating…
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Taxonomy
TopicsEvolution and Genetic Dynamics · Aquatic Ecosystems and Phytoplankton Dynamics · Mathematical and Theoretical Epidemiology and Ecology Models
