Caffera, Marcelo and Chávez, Carlos and Ardente, Analía (2018): The deterrence effect of linear versus convex penalties in environmental policy: laboratory evidence.
This is the latest version of this item.
PDF
MPRA_paper_90944.pdf Download (476kB) |
Abstract
We study the individual compliance behavior of polluting firms in an experimental setting under two different penalty functions (a linear and a strictly convex) and two different regulatory instruments (emission standards and tradable pollution permits). We find that a convex penalty, as compared to a linear penalty, increases the market price of pollution permits and the violation rate of firms. The effect of the structure of the fine on the price of permits operates through an increase in the ask-prices of sellers, not on the bids by suppliers. With convex penalties, sellers are not willing to sell a permit at a price as low as with linear penalties. We do not observe an effect of convex penalties on the compliance status of firms with emission standards. These results call for attention on the possible effect that the type of penalties may have on the cost-effectiveness of pollution control programs based on tradable pollution permits.
Item Type: | MPRA Paper |
---|---|
Original Title: | The deterrence effect of linear versus convex penalties in environmental policy: laboratory evidence |
Language: | English |
Keywords: | Environmental policy, enforcement, penalty structure, emissions standards, emissions trading, laboratory experiments |
Subjects: | C - Mathematical and Quantitative Methods > C9 - Design of Experiments > C91 - Laboratory, Individual Behavior K - Law and Economics > K4 - Legal Procedure, the Legal System, and Illegal Behavior > K42 - Illegal Behavior and the Enforcement of Law L - Industrial Organization > L5 - Regulation and Industrial Policy > L51 - Economics of Regulation Q - Agricultural and Natural Resource Economics ; Environmental and Ecological Economics > Q5 - Environmental Economics > Q58 - Government Policy |
Item ID: | 92872 |
Depositing User: | Dr. Marcelo Caffera |
Date Deposited: | 25 Mar 2019 15:29 |
Last Modified: | 26 Sep 2019 22:02 |
References: | Anderson, L. R., DeAngelo, G., Emons, W., Freeborn, B. and Lang, H. (2017), Penalty Structures and Deterrence in a two-stage model: experimental evidence. Economic Inquiry 55: 1833–1867. Arguedas C. (2008). To comply or not to comply? Pollution standard setting under costly monitoring and sanctioning. Environmental and Resource Economics 41:155-168 Becker G. (1968). Crime and Punishment: An Economic Approach. Journal of Political Economy 76: 169-217. Caffera, M. and C. Chávez (2011).The Cost-Effective Choice of Policy Instruments to Cap Aggregate Emissions with Costly Enforcement. Environmental and Resource Economics 50(4): 531-557. Cason, T. N. and L. Gangadharan (2006). Emissions variability in tradable permits market with imperfect enforcement and banking". Journal of Economic Behavior and Organization 61: 199 - 216. Davis, D. and C. Holst (1993).Experimental Economics. Princeton University Press. Princeton, New Jersey. Fischbacher, U. (2007): z-Tree: Zurich Toolbox for Ready-made Economic Experiments. Experimental Economics 10(2), 171-178. Harford, J. (1978). Firm behavior under imperfectly enforceable pollution standards and taxes. Journal of Environmental Economics and Management 5: 26-43 Harford, J. D. (1987). Self-reporting of pollution and the firm's behavior under imperfectly enforceable regulations. Journal of Environmental Economics and Management, 14(3), 293-303. Harrington, W. (1988). Enforcement leverage when penalties are restricted. Journal of Public Economics, 37(1), 29-53. Heyes, A. (2000). Implementing environmental regulation: enforcement and compliance, Journal of Regulatory Economics 17(2): 107-129. Holt, C. and S. Laury (2002). Risk Aversion and Incentive Effects, The American Economic Review 92 (5): 1644-1655. Jacoby, H. D. and A. D. Ellerman (2004). The safety valve and climate policy. Energy Policy 32, 481-491. Keeler, A. G. (1991). Noncompliant firms in transferable discharge permit markets: some extensions. Journal of Environmental Economics and Management, 21 (2), 180-189. Malik, A. (1990). Markets for Pollution Control when Firms are Noncompliant. Journal of Environmental Economics and Management 18: 97 - 106. Malik, A (1992). Enforcement Cost and the Choice of Policy Instruments for Controlling Pollution. Economic Inquiry 30: 714-721. Murphy, J. J. and J. K. Stranlund (2007). A laboratory investigation of compliance behavior under tradable emissions rights: Implications for targeted enforcement. Journal of Environmental Economics and Management 53: 196 - 212. Restiani, P. and R. Betz (2010).The Effects of Penalty Design on Market Performance: Experimental Evidence from an Emissions Trading Scheme with Auctioned Permits. Environmental Economics Research Hub Research Reports EERH 87. University of New South Wales. Sigman, H. (2012). Monitoring and Enforcement in Climate Policy, in “The Design and Implementation of U.S. Climate Policy, edited by D. Fullerton and C. Wolfram, University of Chicago Press, p. 213-225. Stranlund J.K. (2007). The regulatory choice of noncompliance in emissions trading programs. Environmental and Resource Economics 38:99-117 Stranlund, J.K. (2008). Risk aversion and compliance in markets for pollution control. Journal of Environmental Management 88: 203-210. Stranlund, J.K. and K. Dhanda. (1999). Endogenous monitoring and enforcement of a transferable emissions permit system. Journal of Environmental Economics and Management 38: 267-282. Viscusi, W. K., and Zeckhauser, R. J. (1979). Optimal standards with incomplete enforcement. John F. Kennedy School of Government, Harvard University. |
URI: | https://mpra.ub.uni-muenchen.de/id/eprint/92872 |
Available Versions of this Item
-
The deterrence effect of linear versus convex penalties in environmental policy: laboratory evidence. (deposited 28 Dec 2018 02:42)
- The deterrence effect of linear versus convex penalties in environmental policy: laboratory evidence. (deposited 25 Mar 2019 15:29) [Currently Displayed]