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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The Impact of climate change on the optimal management of wetlands and waterfowl

Withey, Patrick 20 July 2012 (has links)
The Prairie Pothole Region (PPR) of Western Canada is characterized by productive cropland, grasslands, and millions of ‘potholes’ caused by receding glaciers. These potholes fill up with water and form wetlands habitat that is a rich and valuable ecosystem, and is one of the most productive waterfowl habitats in the world. However, the social benefits from wetland ecosystems are not paid to farmers, whose lands support wetlands, leading farmers in the PPR of Canada to drain wetlands. Wetlands habitat in the PPR is also threatened by climate change, due to potentially drier conditions, as well as biofuel policies that are aimed at mitigating climate change (which increase the value of grains relative to wetlands). This research is comprised of four empirical papers that study the optimal level of wetlands retention, as well as the effect of potential future climate change on wetlands. The methods employed include bioeconomic modeling, which maximizes an economic objective (utility of cropping, harvesting ducks) subject to biological constraints (wetlands and waterfowl retention), as well as positive mathematical programming to develop a land use model. In the first paper, a previous bioeconomic model of optimal duck harvest and wetland retention is updated and extended to include the nonmarket value of waterfowl and the ecosystem service and other amenity values of wetlands. Results indicate that wetlands and duck harvests need to be increased relative to historical levels. In the second paper, regression analysis is used to determine the casual effect of climate change on wetlands in the PPR. The model developed in the first paper is then adapted to solve the socially optimal levels of duck harvests and wetlands retention under current climate conditions and various climate change scenarios. Results indicate that the optimal number of wetlands to retain could decrease by as much as 38 percent from the baseline climate. In the third paper, the earlier bioeconomic model is extended to include cropping decisions. Further, the model is solved for disaggregated regions of the PPR. By including cropping decisions, this model can estimate the direct climate effects on wetlands and waterfowl management, as well as land use change due to biofuel policies. The model predicts that climate change will reduce wetlands by 35-56 percent from historic levels, with the majority of this change due to land use change. Wetlands loss is geographically heterogeneous, with losses being the largest in Saskatchewan. Finally, the fourth paper develops a multi-region Positive Mathematical Programming model that calibrates land use in the area to observed acreage in 2006. Policy simulations for both climate effects as well as the effects of biofuel policies determine how climate change will affect land use and wetlands. This model has the advantage of modeling the trade off between all major land uses in the area and is also solved on a region basis. Results indicate that climate change could decrease wetlands in this area by as much as 34 percent; the results are spatially heterogeneous. / Graduate

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