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Huber, Robert; Swiss Federal Institute for Forest, Snow and Landscape Research WSL; robert.huber@wsl.ch; Briner, Simon; ETH Zurich, Agri-food and Agri-environmental Economics Group, Department of Environmental Systems Science; briners@ethz.ch; Lauber, Stefan; Swiss Federal Institute for Forest, Snow and Landscape Research WSL; stefan.lauber@wsl.ch; Seidl, Roman; ETH Zurich, Natural and Social Science Interface, Department of Environmental Systems Science; roman.seidl@env.ethz.ch; Widmer, Alexander; ETH Zurich, Environmental Policy and Economics, Department of Environmental Systems Science; widmeale@env.ethz.ch; Le, Quang Bao; ETH Zurich, Natural and Social Science Interface, Department of Environmental Systems Science; quang.le@env.ethz.ch; Hirschi, Christian; ETH Zurich, Environmental Policy and Economics, Department of Environmental Systems Science; christian.hirschi@env.ethz.ch. |
An effective implementation of payment for environmental services (PES) must allow for complex interactions of coupled social-ecological systems. We present an integrative study of the pasture-woodland landscape of the Swiss Jura Mountains combining methods from natural and social sciences to explore feedback between vegetation dynamics on paddock level, farm-based decision making, and policy decisions on the national political level. Our modeling results show that concomitant climatic and socioeconomic changes advance the loss of open grassland in silvopastoral landscapes. This would, in the longer term, deteriorate the historical wooded pastures in the region, which fulfill important functions for biodiversity and are widely considered as landscapes that... |
Tipo: Peer-Reviewed Reports |
Palavras-chave: Agent-based modeling; Dynamic modeling; Feedback; Human-environment systems; Integrated study; Payments for environmental services; Policy network analysis. |
Ano: 2013 |
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