Utility theoretic semi-logarithmic incomplete demand systems in a natural experiment: Forest fire impacts on recreational values and use |
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Authors: | James Hilger Jeffrey Englin |
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Affiliation: | aU.S. National Marine Fisheries Service, Southwest Fisheries Science Center, United States;bUniversity of Nevada, Reno, United States |
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Abstract: | This study develops a utility theoretic demand model for an arbitrary number of goods that handles correlation between goods and over time. The bivariate compound Poisson estimator is applied to a semi-logarithmic incomplete demand system to estimate the demand for wilderness recreation and the associated welfare measures both prior to and post a 40,000 acre wilderness fire in Washington. Forest fires can simultaneously affect the environmental qualities of many recreational sites; this highlights the need for a utility theoretic demand system approach for modeling consumer behavior that handles the dynamic behavioral and statistical interdependencies over goods and time. Results suggest an increase in consumer welfare per trip post fire, after an initial period of low values, relative to before the fire. |
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Keywords: | Demand system Compound bivariate poisson Count data Non-market valuation Fire Forest Recreation |
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