An evolutionary model of reinforcer value





Faculty/Professorship: Foundations in Education  
Author(s): Borgstede, Matthias  
Publisher Information: Bamberg : Otto-Friedrich-Universität
Year of publication: 2021
Pages: 1-41
Source/Other editions: Behavioural processes : an international journal of comparative and physiological ethology 175 (2020), 104109, S. 1-41. - ISSN: 0376-6357
is version of: 10.1016/j.beproc.2020.104109
Year of first publication: 2020
Language(s): English
DOI: 10.20378/irb-50371
Licence: Creative Commons - CC BY-ND - Attribution - NoDerivatives 4.0 International 
URN: urn:nbn:de:bvb:473-irb-503717
Abstract: 
Within the field of evolutionary biology, natural selection is often thought to favor traits that lead to individuals behaving as if they were maximizing their evolutionary fitness. The concept of the individual as a maximizer is also popular in behavioral psychology, especially when it comes to theories of operant learning. Here, the individual is taken to adapt its behavior to the local environment, such that the expected amount of reinforcer value is maximized.
Whereas there is a considerable consensus concerning the formal properties of an evolutionary maximand (‘fitness’), there is no generally accepted conceptualization of a corresponding behavioral maximand (‘reinforcer value’). However, such theoretical clarification is crucial to the development and empirical testing of learning theories, since it is impossible to decide whether the concept of reinforcer maximization is adequate, as long as the maximand is not well defined.
This paper presents a formal model of reinforcer value that is consistent with existing work on the nature of reinforcement and provides an explicit link between behavioral psychology and evolutionary biology. The main result is that the reinforcer value of an additional time unit spent at a behavior equals its expected marginal effects on evolutionary fitness. Applying the model to matching behavior, it is further demonstrated how the established link between reinforcer value and evolutionary fitness can be used to derive new hypotheses.
GND Keywords: Verhaltenspsychologie; Operante Konditionierung; Evolutionsbiologie
Keywords: selection by consequences, evolutionary fitness, reinforcer value, phylogenetically important event, generalized matching law
DDC Classification: 150 Psychology  
RVK Classification: CP 5000   
Peer Reviewed: Ja
International Distribution: Ja
Type: Article
URI: https://fis.uni-bamberg.de/handle/uniba/50371
Release Date: 2. December 2021

File SizeFormat  
fisba50371.pdf882.89 kBPDFView/Open