Mating Behavior, Population Growth, and the Operational Sex Ratio: a Periodic Two-sex Model Approach

Overview

Journal Am Nat

Publisher University of Chicago Press

Specialties Biology
Science

Date 2010 Apr 23

PMID 20408757

Citations 23

Authors

Stephanie Jenouvrier

Hal Caswell

Christophe Barbraud

Henri Weimerskirch

Affiliations

Soon will be listed here.

Abstract

We present a new approach to modeling two-sex populations, using periodic, nonlinear two-sex matrix models. The models project the population growth rate, the population structure, and any ratio of interest (e.g., operational sex ratio). The periodic formulation permits inclusion of highly seasonal behavioral events. A periodic product of the seasonal matrices describes annual population dynamics. The model is nonlinear because mating probability depends on the structure of the population. To study how the vital rates influence population growth rate, population structure, and operational sex ratio, we used sensitivity analysis of frequency-dependent nonlinear models. In nonlinear two-sex models the vital rates affect growth rate directly and also indirectly through effects on the population structure. The indirect effects can sometimes overwhelm the direct effects and are revealed only by nonlinear analysis. We find that the sensitivity of the population growth rate to female survival is negative for the emperor penguin, a species with highly seasonal breeding behavior. This result could not occur in linear models because changes in population structure have no effect on per capita reproduction. Our approach is applicable to ecological and evolutionary studies of any species in which males and females interact in a seasonal environment.

Citing Articles

Climate Change Impacts Pair-Bond Dynamics in a Long-Lived Monogamous Species.

Sun R, Fay R, Ventura F, Sen B, Barbraud C, Delord K Ecol Lett. 2024; 27(12):e14555.

PMID: 39737522 PMC: 11686944. DOI: 10.1111/ele.14555.

A Robust and Versatile Mating Function for Two-Sex Population Projection Models Fitting all Types of Mating Systems.

Cachelou J, Coste C, Gaillard J, Chassagneux A, Richard E, Baubet E Ecol Lett. 2024; 27(11):e70013.

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Correlations begin at home: drivers of co-occurrence patterns in personality and cognitive ability in wild populations of zebrafish.

Daniel D, Bhat A Anim Cogn. 2023; 26(4):1381-1394.

PMID: 37248284 DOI: 10.1007/s10071-023-01787-w.

A sex skew in life-history research: the problem of missing males.

Archer C, Paniw M, Vega-Trejo R, Sepil I Proc Biol Sci. 2022; 289(1979):20221117.

PMID: 35892214 PMC: 9332873. DOI: 10.1098/rspb.2022.1117.

Detecting climate signals in populations across life histories.

Jenouvrier S, Long M, Coste C, Holland M, Gamelon M, Yoccoz N Glob Chang Biol. 2021; 28(7):2236-2258.

PMID: 34931401 PMC: 9303565. DOI: 10.1111/gcb.16041.