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Equilibrium population dynamics when mating is by mutual choice based on age

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Alpern, Steve, Katrantzi, Ioanna and Ramsey, David (2014) Equilibrium population dynamics when mating is by mutual choice based on age. Theoretical Population Biology, 94 . pp. 63-72. doi:10.1016/j.tpb.2013.01.001

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Official URL: http://dx.doi.org/10.1016/j.tpb.2013.01.001

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Abstract

We consider a steady state model of mutual mate choice in which an individual’s mate preferences depend on his/her age, and the preferences are over the ages of prospective mates of the opposite sex. We present a discrete time (and age) model corresponding to successive mating seasons. Males are fertile for m periods (corresponding to ‘age’ i=1 to m) and females for n≤m periods (they have ages j=1 to n), which is all that distinguishes the sexes. Although we can deal with arbitrary preferences, we concentrate on a simple fertility model where the common utility to a male age i and female age j who mate is the number K=min(m−i+1,n−j+1) of future periods of joint fertility. The incoming sex ratio R of age 1 males to age 1 females is given exogenously. In each period individuals are randomly (non assortatively) matched and form a mated couple by mutual consent; otherwise they go into the next period unmated and older. We derive properties of equilibrium threshold acceptance strategies and establish the existence of time-invariant age distributions. Our methods determine the age distribution of couples at marriage (mating) and the population sex ratio (OSR) at equilibrium. Since this can be determined empirically in a population, our model can be used to rule out most systems of age preferences (those not consistent with the observed distribution). This extends earlier models of mutual choice with one dimensional types of Alpern and Reyniers [1999. Strategic mating with homotypic preferences. J. Theor. Biol. 198, 71–88; 2005. Strategic mating with common preferences. J. Theor. Biol. 237, 337–354] where individuals sought, respectively, individuals with similar or high types, but in those models an individual’s type was fixed over time.

Under the simple fertility model, at equilibrium the maximum age of an acceptable partner is increasing in the age of the searcher. Our results relate to discussions in the literature regarding optimal parental age differences, age-related mate preferences, and to mate choice in general. We believe our model will be used as a tool in future investigations in these areas.

Item Type: Journal Article
Divisions: Faculty of Social Sciences > Warwick Business School > Operational Research & Management Sciences
Faculty of Social Sciences > Warwick Business School
Journal or Publication Title: Theoretical Population Biology
Publisher: Academic Press
ISSN: 0040-5809
Official Date: June 2014
Dates:
DateEvent
June 2014Published
26 March 2013Available
21 September 2010UNSPECIFIED
Volume: 94
Page Range: pp. 63-72
DOI: 10.1016/j.tpb.2013.01.001
Status: Peer Reviewed
Publication Status: Published
Access rights to Published version: Restricted or Subscription Access

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