Ecological-Economic Modelling for Biodiversity Conservation

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Ecological-Economic Modelling for Biodiversity Conservation Author: Format: Hardback First Published: Published By: Cambridge University Press
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Pages: 312 Illustrations and other contents: Worked examples or Exercises; 1 Halftones, black and white; 50 Line drawings, black and white Language: English ISBN: 9781108493765 Categories: , , ,

Ecologists and economists both use models to help develop strategies for biodiversity management. The practical use of disciplinary models, however, can be limited because ecological models tend not to address the socioeconomic dimension of biodiversity management, whereas economic models tend to neglect the ecological dimension. Given these shortcomings of disciplinary models, there is a necessity to combine ecological and economic knowledge into ecological-economic models. Gradually guiding the reader into the field of ecological-economic modelling by introducing mathematical models and their role in general, this book provides an overview on ecological and economic modelling approaches relevant for research in the field of biodiversity conservation. It discusses the advantages of and challenges associated with ecological-economic modelling, together with an overview of useful ways of integration. Although being a book about mathematical modelling, ecological and economic concepts play an equally important role, making the book accessible for readers from very different disciplinary backgrounds.

Weight0.62 kg
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'… the book aims to give a comprehensive survey of useful mathematical methods relevant to environmental policy design. The author stops to explain core concepts and provide historical context where necessary.' Chay Paterson, zbMATH

Author Biography

Martin Drechsler is a Senior Scientist at the Helmholtz Centre for Environmental Research – UFZ , Germany. His research includes the mathematical modelling of populations in fragmented and dynamic landscapes, the mathematical ecological-economic analysis of instruments and strategies for biodiversity conservation, the model-based assessment of renewable energy deployment, and mathematical optimization and decision theory. He originally trained as a physicist, which provided him with the necessary mathematical background to understand, develop and analyse mathematical models. Twenty years ago, he started collaborating with economists to contribute to the development of the research field of ecological-economic modelling. In the field of ecological-economic modelling he is one of the most productive authors.