A Bioeconomic Supply Model for Louisiana Nutria and Impacts on Wetlands Conservation Associated with Economic Incentives

Nutria (Mayocastor) were first introduced to Louisiana in 1938. With few natural predators and high prolific productivity, they became well established in the surrounding coastal marsh within a few years. Prior to 1980s, as a result of high demand for nutria products from European countries, harvest...

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Main Author: Ould Dedah, Cheikhna
Other Authors: Jing Wang
Format: Others
Language:en
Published: LSU 2005
Subjects:
Online Access:http://etd.lsu.edu/docs/available/etd-07122005-101758/
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spelling ndltd-LSU-oai-etd.lsu.edu-etd-07122005-1017582013-01-07T22:50:09Z A Bioeconomic Supply Model for Louisiana Nutria and Impacts on Wetlands Conservation Associated with Economic Incentives Ould Dedah, Cheikhna Environmental Studies Nutria (Mayocastor) were first introduced to Louisiana in 1938. With few natural predators and high prolific productivity, they became well established in the surrounding coastal marsh within a few years. Prior to 1980s, as a result of high demand for nutria products from European countries, harvest pressure was sufficient to keep the population in check with their wetlands capacity. By the mid-1980s, however, prices had fallen sharply, culminating in declining annual harvests and an increasing population. Because of their feeding habits, the increased nutria population has resulted in a substantial amount of wetland degradation. In this thesis, a long-run bioeconomic supply model for nutria is developed and the expected harvest associated with different bounties is incorporated into a wetland-loss model to investigate the extent to which alternative bounties lessen wetland degradation. With respect to the bioeconomic supply model, harvest per hectare is specified as a function of the harvested price per pelt, opportunity costs of the trapper, and the variables that impact the carrying capacity (a weather severity index and the alligator population density). Results suggest that MSY is achieved at a real price (based on 2000 Implicit Price Deflator) of approximately $17 and that MSY is equal to 1.5 million pelts when all explanatory variables, other than price, are held at their respective means. The signs of the coefficients of the explanatory variables are consistent with a priori expectations. As the alligator population density increases, long-run nutria harvest is expected to decline. Similarly, lower opportunity costs associated with the trappers time (measured via an increase in the unemployment rate) was found to result in an increase in long-run harvest. Based on incorporation of the predicted harvests associated with various bounties into the simulation model (i.e., a wetland-loss model), results suggest that wetland degradation is lessened in response to an increasing bounty. However, the results are highly sensitive to changes in the level of some parameters in the wetland-loss model such as the biomass destroyed-to-consumed ratio, the critical density, and time-to-maturity. Finally, a benefit cost analysis implies that the benefits associated with the various bounties outweigh the costs. Jing Wang Hamady Diop Ralph Portier Richard F. Kazmierczak, Jr. Walter R. Keithly LSU 2005-07-14 text application/pdf http://etd.lsu.edu/docs/available/etd-07122005-101758/ http://etd.lsu.edu/docs/available/etd-07122005-101758/ en unrestricted I hereby certify that, if appropriate, I have obtained and attached herein a written permission statement from the owner(s) of each third party copyrighted matter to be included in my thesis, dissertation, or project report, allowing distribution as specified below. I certify that the version I submitted is the same as that approved by my advisory committee. I hereby grant to LSU or its agents the non-exclusive license to archive and make accessible, under the conditions specified below and in appropriate University policies, my thesis, dissertation, or project report in whole or in part in all forms of media, now or hereafter known. I retain all other ownership rights to the copyright of the thesis, dissertation or project report. I also retain the right to use in future works (such as articles or books) all or part of this thesis, dissertation, or project report.
collection NDLTD
language en
format Others
sources NDLTD
topic Environmental Studies
spellingShingle Environmental Studies
Ould Dedah, Cheikhna
A Bioeconomic Supply Model for Louisiana Nutria and Impacts on Wetlands Conservation Associated with Economic Incentives
description Nutria (Mayocastor) were first introduced to Louisiana in 1938. With few natural predators and high prolific productivity, they became well established in the surrounding coastal marsh within a few years. Prior to 1980s, as a result of high demand for nutria products from European countries, harvest pressure was sufficient to keep the population in check with their wetlands capacity. By the mid-1980s, however, prices had fallen sharply, culminating in declining annual harvests and an increasing population. Because of their feeding habits, the increased nutria population has resulted in a substantial amount of wetland degradation. In this thesis, a long-run bioeconomic supply model for nutria is developed and the expected harvest associated with different bounties is incorporated into a wetland-loss model to investigate the extent to which alternative bounties lessen wetland degradation. With respect to the bioeconomic supply model, harvest per hectare is specified as a function of the harvested price per pelt, opportunity costs of the trapper, and the variables that impact the carrying capacity (a weather severity index and the alligator population density). Results suggest that MSY is achieved at a real price (based on 2000 Implicit Price Deflator) of approximately $17 and that MSY is equal to 1.5 million pelts when all explanatory variables, other than price, are held at their respective means. The signs of the coefficients of the explanatory variables are consistent with a priori expectations. As the alligator population density increases, long-run nutria harvest is expected to decline. Similarly, lower opportunity costs associated with the trappers time (measured via an increase in the unemployment rate) was found to result in an increase in long-run harvest. Based on incorporation of the predicted harvests associated with various bounties into the simulation model (i.e., a wetland-loss model), results suggest that wetland degradation is lessened in response to an increasing bounty. However, the results are highly sensitive to changes in the level of some parameters in the wetland-loss model such as the biomass destroyed-to-consumed ratio, the critical density, and time-to-maturity. Finally, a benefit cost analysis implies that the benefits associated with the various bounties outweigh the costs.
author2 Jing Wang
author_facet Jing Wang
Ould Dedah, Cheikhna
author Ould Dedah, Cheikhna
author_sort Ould Dedah, Cheikhna
title A Bioeconomic Supply Model for Louisiana Nutria and Impacts on Wetlands Conservation Associated with Economic Incentives
title_short A Bioeconomic Supply Model for Louisiana Nutria and Impacts on Wetlands Conservation Associated with Economic Incentives
title_full A Bioeconomic Supply Model for Louisiana Nutria and Impacts on Wetlands Conservation Associated with Economic Incentives
title_fullStr A Bioeconomic Supply Model for Louisiana Nutria and Impacts on Wetlands Conservation Associated with Economic Incentives
title_full_unstemmed A Bioeconomic Supply Model for Louisiana Nutria and Impacts on Wetlands Conservation Associated with Economic Incentives
title_sort bioeconomic supply model for louisiana nutria and impacts on wetlands conservation associated with economic incentives
publisher LSU
publishDate 2005
url http://etd.lsu.edu/docs/available/etd-07122005-101758/
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