Litcius/Paper detail

Trophic pyramids reorganize when food web architecture fails to adjust to ocean change

Ivan Nagelkerken, Silvan Urs Goldenberg, Camilo M. Ferreira, Hadayet Ullah, Sean D. Connell

2020Science119 citationsDOI

Abstract

As human activities intensify, the structures of ecosystems and their food webs often reorganize. Through the study of mesocosms harboring a diverse benthic coastal community, we reveal that food web architecture can be inflexible under ocean warming and acidification and unable to compensate for the decline or proliferation of taxa. Key stabilizing processes, including functional redundancy, trophic compensation, and species substitution, were largely absent under future climate conditions. A trophic pyramid emerged in which biomass expanded at the base and top but contracted in the center. This structure may characterize a transitionary state before collapse into shortened, bottom-heavy food webs that characterize ecosystems subject to persistent abiotic stress. We show that where food web architecture lacks adjustability, the adaptive capacity of ecosystems to global change is weak and ecosystem degradation likely.

Topics & Concepts

Trophic levelFood webEcosystemEcologyTrophic cascadeBenthic zoneClimate changeEnvironmental scienceMesocosmBiologyIsotope Analysis in EcologyEvolutionary Game Theory and CooperationEcosystem dynamics and resilience