Litcius/Paper detail

Structural asymmetry in biotic interactions as a tool to understand and predict ecological persistence

Alfonso Allen‐Perkins, David García‐Callejas, Ígnasi Bartomeus, Óscar Godoy

2023Ecology Letters29 citationsDOI

Abstract

A universal feature of ecological systems is that species do not interact with others with the same sign and strength. Yet, the consequences of this asymmetry in biotic interactions for the short- and long-term persistence of individual species and entire communities remains unclear. Here, we develop a set of metrics to evaluate how asymmetric interactions among species translate to asymmetries in their individual vulnerability to extinction under changing environmental conditions. These metrics, which solve previous limitations of how to independently quantify the size from the shape of the so-called feasibility domain, provide rigorous advances to understand simultaneously why some species and communities present more opportunities to persist than others. We further demonstrate that our shape-related metrics are useful to predict short-term changes in species' relative abundances during 7 years in a Mediterranean grassland. Our approach is designed to be applied to any ecological system regardless of the number of species and type of interactions. With it, we show that is possible to obtain both mechanistic and predictive information on ecological persistence for individual species and entire communities, paving the way for a stronger integration of theoretical and empirical research.

Topics & Concepts

EcologyPersistence (discontinuity)Extinction (optical mineralogy)CommunityEcological systems theorySpecies richnessVulnerability (computing)Ecological networkEcosystemBiologyComputer scienceGeotechnical engineeringEngineeringComputer securityPaleontologyEcology and Vegetation Dynamics StudiesPlant and animal studiesAnimal Ecology and Behavior Studies