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Monotonous tasks require self-control because they interfere with endogenous reward

Published online by Cambridge University Press:  04 December 2013

George Ainslie*
Affiliation:
School of Economics, University of Cape Town, Rondebosch 7701, South Africa; and U.S. Department of Veterans Affairs, Coatesville, PA 19320. George.Ainslie@va.govwww.picoeconomics.org

Abstract

Self-control is a necessary component of subjective effort, but it depends only on farsighted motivation, with no additional, depletable resource. The aversiveness of boring tasks probably comes from their interference with endogenous reward, a new and potentially controversial concept. The self-control needed to stick with any kind of aversive experience increases as the values of the competing motives draw closer together.

Type
Open Peer Commentary
Copyright
Copyright © Cambridge University Press 2013 

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References

Ainslie, G. (2012) Pure hyperbolic discount curves predict “eyes open” self-control. Theory and Decision 73:334. doi:10.1007/s11238-011-9272-5.Google Scholar
Ainslie, G. (2013) Grasping the impalpable: The role of endogenous reward in choices, including process addictions. Inquiry 56(5):446–69.CrossRefGoogle Scholar
Brehm, J. W. & Cohen, A. R. (1962) Explorations in cognitive dissonance. John Wiley.Google Scholar
Converse, P. D. & DeShon, R. P. (2009) A tale of two tasks: Reversing the self-regulatory resource depletion effect. Journal of Applied Psychology 94(5):1318–24.Google Scholar
Csikszentmihalyi, M. (1990) Flow: The psychology of optimal experience. Harper and Row.Google Scholar
Dar, R., Stronguin, F., Marouani, R., Krupsky, M. & Frenk, H. (2005) Craving to smoke in orthodox Jewish smokers who abstain on the Sabbath: A comparison to a baseline and a forced abstinence workday. Psychopharmacology 183:294–99.Google Scholar
Daw, N. D. & Doya, K. (2006) The computational neurobiology of learning and reward. Current Opinion in Neurobiology 16:199204.Google Scholar
Dollard, J. & Miller, N. E. (1950) Personality and psychotherapy: An analysis in terms of learning, thinking, and culture. McGraw-Hill.Google Scholar
Fudenberg, D. & Levine, D. (2006) A dual-self model of impulse control. American Economic Review 96:1449–76.Google Scholar
Gul, F. & Pesendorfer, W. (2004) Self-control, revealed preference and consumption choice. Review of Economic Dynamics 7:243–64.Google Scholar
Mackworth, N. H. (1948) The breakdown of vigilance during prolonged visual search. The Quarterly Journal of Experimental Psychology 1:621.CrossRefGoogle Scholar
March, J. G. (1978) Bounded rationality, ambiguity, and the engineering of choice. Bell Journal of Economics 9:587610.Google Scholar
Spreng, R. N., Mar, R. A. & Kim, A. S. N. (2009) A common neural basis of autobiographical memory, prospection, navigation, theory of mind, and the default mode: A quantitative meta-analysis. Journal of Cognitive Neuroscience 21(3):489510.Google Scholar
Zubeck, J. P. (1973) Behavioral and physiological effects of prolonged sensory and perceptual deprivation: A review. In: Man in isolation and confinement, ed. Rasmussen, J., pp. 983. Aldine.Google Scholar