A Framework for Predicting Impacts on Ecosystem Services From (Sub)Organismal Responses to Chemicals

Authors

Valery E. Forbes, University of Minnesota, St. PaulFollow
Chris J. Salice, Towson University
Bjorn Birnir, University of California- Santa Barbara
Randy J.F. Bruins, US Environmental Protection Agency
Peter Calow, University of Minnesota- Minneapolis
Virginie Ducrot, Crop Science Division
Nika Galic, University of Minnesota, St. Paul
Kristina Garber, US Environmental Protection Agency
Bret C. Harvey, US Department of Agriculture Forest Service
Henriette Jager, Oak Ridge National Laboratory
Andrew Kanarek, US Environmental Protection Agency
Robert Pastorok, Integral Consulting
Steve F. Railsback, Lang Railsback & Associates
Richard Rebarber, University of Nebraska - LincolnFollow
Pernille Thorbek, Jealott’s Hill International Research Centre

Date of this Version

4-2017

Citation

2017 SETAC

Comments

Environmental Toxicology and Chemistry, Vol. 36, No. 4, April, 2017 DOI: 10.1002/etc.3720

Abstract

Protection of ecosystem services is increasingly emphasized as a risk-assessment goal, but there are wide gaps between current ecological risk-assessment endpoints and potential effects on services provided by ecosystems. The authors present a framework that links common ecotoxicological endpoints to chemical impacts on populations and communities and the ecosystem services that they provide. This framework builds on considerable advances in mechanistic effects models designed to span multiple levels of biological organization and account for various types of biological interactions and feedbacks. For illustration, the authors introduce 2 case studies that employ well-developed and validated mechanistic effects models: the inSTREAM individual-based model for fish populations and the AQUATOX ecosystem model. They also show how dynamic energy budget theory can provide a common currency for interpreting organism-level toxicity. They suggest that a framework based on mechanistic models that predict impacts on ecosystem services resulting from chemical exposure, combined with economic valuation, can provide a useful approach for informing environmental management. The authors highlight the potential benefits of using this framework as well as the challenges that will need to be addressed in future work.