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ABSTRACT
Coral reefs are threatened globally by the climatic consequences of rising atmospheric CO2 levels; in many regions they are also threatened locally, for example, by reductions in the water quality of runoff from adjacent catchments. Interaction between global and local pressures makes it possible to use local actions to mitigate the impacts of climate change. To this end, managers and policy-makers are seeking to implement agricultural land management regimes that improve runoff water quality and thereby reduce risks to the Great Barrier Reef. Although components of the Great Barrier Reef Region have been researched for some time, a systemic approach capable of representing the Region's key functional relationships as a social–ecological system is lacking. Here we provide a conceptual framework of the Great Barrier Reef social–ecological system that identifies a range of complex socioeconomic tradeoffs that may be required to maintain resilient reefs under climate change. The conceptual framework is the first step toward development of a functional analytical tool that is capable of helping policy-makers choose between alternative management actions.
ACKNOWLEDGMENTS
This research was funded by the Marine and Tropical Science Research Facility and the CSIRO Water for a Healthy Country National Research Flagship. For their valuable experience, insights, and observations, we thank Daniel Gschwind, Gianna Moscardo, Ali Coghlan, Terry Done, Peter Roebeling, Julian Caley, David Souter, Col McKenzie, Lisha Mulqueeny, Alistair Birtles, Ingrid van Putten, Martijn van Grieken, and Bruce Prideaux. Sincere thanks also go to Nick Webb, Lynise Wearne, and Peter Bayliss for helpful comments on an earlier draft and to Brett Abbot and Caroline Bruce for amending the map.