Asymmetric relationships and their effects on coexistence

Species coexistence attracts wide interest in ecology. Modern coexistence theory (MCT) identifies coexistence mechanisms, one of which, storage effects, hinges on relationships between fluctuations in environmental and competitive pressures. However, such relationships are typically measured using covariance, which does not account for the possibility that environment and competition may be more related to each other when they are strong than when weak, or vice versa. Recent work showed that such 'asymmetric tail associations' (ATAs) are common between ecological variables, and are important for extinction risk, ecosystem stability, and other phenomena. We extend MCT, decomposing storage effects to show the influence of ATAs. Analysis of a simple model and an empirical example using diatoms illustrate that ATA influences can be comparable in magnitude to other mechanisms of coexistence and that ATAs can make the difference between species coexistence and competitive exclusion. ATA influences may be an important new mechanism of coexistence. Influences of asymmetries of association between environment and competition are taken into account for their effects on coexistence versus competitive exclusion of competing species. New theory is developed, and examples based on models and a laboratory diatom system are analysed. Results show that influences of asymmetries may be an important new mechanism contributing to the coexistence of species.image

Automated summary

This study extends modern coexistence theory by introducing the concept of asymmetric tail associations (ATAs) and analyzing their impact on species coexistence. Through a simple model and empirical examples, the study demonstrates that ATAs can be as influential as other coexistence mechanisms and can determine whether species can coexist or be competitively excluded.