Hostname: page-component-76fb5796d-2lccl Total loading time: 0 Render date: 2024-04-30T04:39:45.728Z Has data issue: false hasContentIssue false
  • English
  • Français

Almost Ideal Area Yield Crop Insurance Contracts

Published online by Cambridge University Press:  15 September 2016

Vincent H. Smith ,
Hayley H. Chouinard  and
Alan E. Baquet
Vincent H. Smith
Affiliation:
Department of Agricultural Economics and Economics, Montana State University
Hayley H. Chouinard
Affiliation:
Department of Agricultural Economics and Economics, Montana State University
Alan E. Baquet
Affiliation:
Department of Agricultural Economics and Economics, Montana State University
Get access

Abstract

Using yield data for a sample of 123 dryland wheat producers in Montana, the effects of three area yield contracts, including the contract currently offered by the United States Federal Crop Insurance Corporation and two individual yield contracts on individual farm yield variability, are examined. The results indicate that while the Federal Crop Insurance Corporation area yield contract provides all farmers in the sample with some protection against yield variability, a simpler, actuarially equivalent “almost ideal” area yield contract provides substantially larger reductions in yield variability. However, actuarially equivalent individual yield contracts provide levels of protection against yield variability similar to those obtained under the “almost ideal” area yield contract at much lower premiums.

Type
Agricultural, Resource, and Environmental Policies in the 1990s
Information
Agricultural and Resource Economics Review , Volume 23 , Issue 1 , April 1994 , pp. 75 - 83
Copyright
Copyright © 1994 Northeastern Agricultural and Resource Economics Association 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Amott, R.J. and Stiglitz, J.E.The Basic Analytics of Moral Hazard.” Scandinavian Journal of Economics. (1988): 383413.CrossRefGoogle Scholar
Bardsley, P., Abey, A., and Davenport, S.The Economics of Insuring Crops Against Drought.” The Australian Journal of Agricultural Economics. 28 (1984): 114.Google Scholar
Borch, K. The Economics of Uncertainty. Princeton: Princeton University Press, 1968.Google Scholar
Carriker, G.L., Williams, J.R., Barnaby, G.A., and Black, J.R.Yield and Income Risk Reduction under Alternative Crop Insurance and Disaster Assistance Designs.” Western Journal of Agricultural Economics. 16 (1991): 238–50.Google Scholar
Chambers, R.G.Insurability and Moral Hazard in Agricultural Insurance Markets.” American Journal of Agricultural Economics. 71 (1989): 604–16.Google Scholar
Coble, K.H., Knight, T.O., Pope, R.D., and Williams, J.R.An Empirical Test for Moral Hazard and Adverse Selection in Multiple Peril Crop Insurance.” Paper presented at the AAEA Summer Meetings, Orlando, Florida, August 1993.Google Scholar
Fraser, R.W.An Analysis of Willingness-To-Pay for Crop Insurance.” Australian Journal of Agricultural Economics. (April 1992):8395.Google Scholar
Gardner, B.L. and Kramer, R.A.Experience with Crop Insurance Programs in the United States.” In Hazell, P., Pomareda, C., and Valdes, A. (eds), Crop Insurance for Agricultural Development, Johns Hopkins University Press, Baltimore.Google Scholar
Goodwin, B.K.An Empirical Analysis of the Demand for Multiple Peril Crop Insurance.” American Journal of Agricultural Economics. 75 (1993): 425–34.CrossRefGoogle Scholar
Goodwin, B.K. and Kastens, T.L.Adverse Selection, Disaster Relief, and the Demand for Multiple Peril Crop Insurance.” A Research Report Prepared for the Federal Crop Insurance Corporation (Project No. 92-EXCA-3-0209). Kansas State University, 1993.Google Scholar
Grossman, S.J. and Hart, O.D.An Analysis of the Principal-Agent Problem.” Econometrica. 51 (1983): 745.CrossRefGoogle Scholar
Halcrow, H.G.Actuarial Structures for Crop Insurance.” Journal of Farm Economics. 31 (1949): 418–43.CrossRefGoogle Scholar
Horowitz, J.K. and Lichtenberg, E.Insurance, Moral Hazard, and Chemical Use in Agriculture.” American Journal of Agricultural Economics. Forthcoming, 1993.CrossRefGoogle Scholar
Just, R.E. and Calvin, L.Adverse Selection in U.S. Crop Insurance: The Relationship of Farm Characteristics to Premiums.” Unpublished working paper, University of Maryland, College Park, Maryland. 1993.Google Scholar
Just, R.E. and Calvin, L.Moral Hazard in U.S. Crop Insurance: An Empirical Investigation.” Unpublished working paper, University of Maryland, College Park, Maryland. 1993.Google Scholar
Miranda, M.J.Area-Yield Crop Insurance Reconsidered.” American Journal of Agricultural Economics. (1991): 233–42.CrossRefGoogle Scholar
Nelson, C.H. and Loehman, E.T.Further Toward a Theory of Agricultural Insurance.” American Journal of Agricultural Economics. 69 (1987): 523–31.Google Scholar
Patrick, G.F.Mallee Wheat Farmers' Demand for Crop and Rainfall Insurance.” Australian Journal of Agricultural Economics. 32 (1988): 3749.Google Scholar
Quiggin, J.A Note on the Viability of Rainfall Insurance.” Australian Journal of Agricultural Economics. 30 (1986): 6369.Google Scholar
Raviv, A.The Design of An Optimal Insurance Policy.” American Economic Review. 69 (1979): 8496.Google Scholar
Skees, J.R. and Reed, M.R.Rate Making and Farm-Level Crop Insurance: Implications for Adverse Selection.” American Journal of Agricultural Economics. 68 (1986): 653–59.CrossRefGoogle Scholar
Williams, J.R., Carriker, G.L., Bamaby, G.A., and Harper, J.K.Crop Insurance and Disaster Assistance Designs for Wheat and Grain Sorghum.” American Journal of Agricultural Economics. 75 (1993): 435–47.CrossRefGoogle Scholar
Zering, K.D., McCorble, C.O. Jr., and Moon, C.V.The Utility of Multiple Peril Crop Insurance for Irrigated, Multiple-Crop Agriculture.” Western Journal of Agricultural Economics. 12 (1987): 5059.Google Scholar