Stochastic Production and Heterogeneous Risk Preferences: Commercial Fishers Gear Choices
Abstract
As long as total effort cannot be completely controlled, a more thorough understanding of fishers' supply
response decisions will be beneficial for fishery managers. In this paper, we present a model of fishers'
gear choice, which is empirically estimated on a panel of Swedish demersal trawlers. The approach allows
for heterogeneity both in production technology and in risk preferences. Stochastic revenue functions with
fixed effects are estimated and used to predict expected revenue and standard deviation for each trip. We
employ a linear utility function in the mean-standard deviation framework and then analyze the gear
choices, using the predicted values together with vessel capacity and lagged variables for the previous trip
in a random parameters-logit model, which allows for heterogeneous risk preferences. The results indicate
that fishers have a strong tendency to choose the same gear used on the previous trip, while in general they
react to changes in economic and biological conditions by responding positively to increases in expected
landing values and negatively to increases in the variability of the expected landing values, indicating risk
aversion.
University
Göteborg University. School of Business, Economics and Law
Collections
View/ Open
Date
2001Author
Tveterås, Ragnar
Eggert, Håkan
Keywords
Risk preferences; two-moment decision models; Just-Pope production function; random-parameters logit; Swedish fisheries
Publication type
Report
ISSN
1403-2465
Series/Report no.
Working Papers in Economics, nr 54
Language
en