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This book presents a series of lectures on applied environmental economics and policy covering the following issues: environmental cost-benefit analysis; ecosystem services; ecosystems biodiversity and the economy; and sustainability.The first part introduces basic concepts in environmental cost-benefit analysis and explains in detail the choice of the discount rate. Distributional issues and assessment of risk involved in decision-making criteria, using tools such as sensitivity analysis and Monte Carlo simulations, are discussed.The second part of the lectures deals with ecosystem services and analyzes the concepts of total economic value and quasi-option value. It presents the two landmark global initiatives on ecosystem services: the Millennium Ecosystem Assessment and the Economics of Ecosystems and Biodiversity. The various methods and approaches for valuing ecosystem services, using revealed and stated preference valuation methods along with their advantages and disadvantages, are explored.In the third part, the links between ecological and economic systems are explored along with the economics of biodiversity where biodiversity-related issues such as metrics, valuation, conservation, and policy design are discussed.The fourth and final part of the lectures deals with sustainability. It covers issues related to measuring sustainable development at the macro level, along with corporate sustainability, and takes a brief look at environmental, social and governance (ESG) reporting.
The most interesting issues in environmental and resource economics have an explicit temporal dimension, since variables of interest such as pollutants, greenhouse gases, biomass of biological resources, or the stocks of fossil fuels accumulate in the ambient environment or are depleted through human actions and natural processes.The purpose of these lectures is to present the mathematical tools for analyzing environmental and resource management issues in a dynamic set-up.The lectures include a brief description of differential equations and then move on to describe methods of optimal control, dynamic programing, and differential games. The final chapters cover two novel topics: (1) environmental issues characterized by deep uncertainty, and aversion to ambiguity using robust control methods and formulations of precautionary policies; and (2) the study of pollution/resource management in space and time when the environmental variables evolve in time and diffuse in space.The lectures are a valuable tool for advanced graduate students in environmental and resource economics who are studying dynamic problems.
The most interesting issues in environmental and resource economics have an explicit temporal dimension, since variables of interest such as pollutants, greenhouse gases, biomass of biological resources, or the stocks of fossil fuels accumulate in the ambient environment or are depleted through human actions and natural processes.The purpose of these lectures is to present the mathematical tools for analyzing environmental and resource management issues in a dynamic set-up.The lectures include a brief description of differential equations and then move on to describe methods of optimal control, dynamic programing, and differential games. The final chapters cover two novel topics: (1) environmental issues characterized by deep uncertainty, and aversion to ambiguity using robust control methods and formulations of precautionary policies; and (2) the study of pollution/resource management in space and time when the environmental variables evolve in time and diffuse in space.The lectures are a valuable tool for advanced graduate students in environmental and resource economics who are studying dynamic problems.
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