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A bioenergetic framework for aboveground terrestrial food webs

Fernanda S. Valdovinos, Kayla R. S. Hale, Sabine Dritz, Paul Glaum, Kevin S. McCann, Sophia Simon, Élisa Thébault, William C. Wetzel, Kate L. Wootton, Justin D. Yeakel

2022Trends in Ecology & Evolution15 citationsDOIOpen Access PDF

Abstract

Bioenergetic approaches have been greatly influential for understanding community functioning and stability and predicting effects of environmental changes on biodiversity. These approaches use allometric relationships to establish species' trophic interactions and consumption rates and have been successfully applied to aquatic ecosystems. Terrestrial ecosystems, where body mass is less predictive of plant-consumer interactions, present inherent challenges that these models have yet to meet. Here, we discuss the processes governing terrestrial plant-consumer interactions and develop a bioenergetic framework integrating those processes. Our framework integrates bioenergetics specific to terrestrial plants and their consumers within a food web approach while also considering mutualistic interactions. Such a framework is poised to advance our understanding of terrestrial food webs and to predict their responses to environmental changes.

Topics & Concepts

Trophic levelFood webBioenergeticsTerrestrial ecosystemEcosystemEcologyBiodiversityTerrestrial plantAllometryEcosystem servicesTrophic cascadePrimary producersFood chainEnvironmental resource managementEnvironmental scienceBiologyNutrientPhytoplanktonCell biologyMitochondrionPlant and animal studiesPlant Parasitism and ResistanceInsect and Arachnid Ecology and Behavior
A bioenergetic framework for aboveground terrestrial food webs | Litcius