Litcius/Paper detail

Trait-mediated processes and per capita contributions to ecosystem functioning depend on conspecific density and climate conditions

Trystan Sanders, Martin Solan, Jasmin A. Godbold

2024Communications Earth & Environment12 citationsDOIOpen Access PDF

Abstract

Abstract The ecological consequences of environmental change are highly dependent on the functional contributions of the surviving community, but categorical descriptors commonly used to project ecosystem futures fail to capture context dependent response variability. Here, we show that intraspecific variability for a range of sediment-dwelling marine invertebrates is moderated by changes in the density of conspecifics and/or climatic conditions. Although these trait-mediated changes result in modifications to ecosystem properties, we find that the contributions of individuals to functioning are not necessarily additive but, instead, are a result of alterations to per capita performance. Our findings also indicate that trait variation within species can exert a greater influence on functioning than that of trait variation between species. Hence, projections of likely functional outcomes that scale from mean trait values are unlikely to be robust, highlighting a need to account for how and when intraspecific variability results in context-dependent community responses to change.

Topics & Concepts

TraitIntraspecific competitionEcologyContext (archaeology)EcosystemClimate changeVariation (astronomy)Per capitaEnvironmental changeRange (aeronautics)BiologyDemographyPaleontologyPhysicsAstrophysicsProgramming languageMaterials sciencePopulationComposite materialSociologyComputer scienceMarine Biology and Ecology ResearchMarine and coastal plant biologyCoral and Marine Ecosystems Studies