Multilevel Selection 2: Estimating the Genetic Parameters Determining Inheritance and Response to Selection

Overview

Journal Genetics

Publisher Oxford University Press

Specialty Genetics

Date 2006 Nov 18

PMID 17110493

Citations 80

Authors

Piter Bijma

William M Muir

Esther D Ellen

Jason B Wolf

Johan A M van Arendonk

Affiliations

Soon will be listed here.

Abstract

Interactions among individuals are universal, both in animals and in plants and in natural as well as domestic populations. Understanding the consequences of these interactions for the evolution of populations by either natural or artificial selection requires knowledge of the heritable components underlying them. Here we present statistical methodology to estimate the genetic parameters determining response to multilevel selection of traits affected by interactions among individuals in general populations. We apply these methods to obtain estimates of genetic parameters for survival days in a population of layer chickens with high mortality due to pecking behavior. We find that heritable variation is threefold greater than that obtained from classical analyses, meaning that two-thirds of the full heritable variation is hidden to classical analysis due to social interactions. As a consequence, predicted responses to multilevel selection applied to this population are threefold greater than classical predictions. This work, combined with the quantitative genetic theory for response to multilevel selection presented in an accompanying article in this issue, enables the design of selection programs to effectively reduce competitive interactions in livestock and plants and the prediction of the effects of social interactions on evolution in natural populations undergoing multilevel selection.

Citing Articles

Towards an Evolutionary Model of Animal-Associated Microbiomes.

Yeoman C, Chia N, Yildirim S, Miller M, Kent A, Stumpf R Entropy (Basel). 2025; 13(3):570-594.

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Indirect genetic effects increase the heritable variation available to selection and are largest for behaviors: a meta-analysis.

Santostefano F, Moiron M, Sanchez-Tojar A, Fisher D Evol Lett. 2025; 9(1):89-104.

PMID: 39906585 PMC: 11790215. DOI: 10.1093/evlett/qrae051.

Comparison of linear mixed models for genetic feather score analysis in laying hens kept in recurrent testing facilities.

Osorio-Gallardo T, Bijma P Poult Sci. 2025; 104(2):104833.

PMID: 39879719 PMC: 11810823. DOI: 10.1016/j.psj.2025.104833.

Genetic correlations of direct and indirect genetic components of social dominance with fitness and morphology traits in cattle.

Tuliozi B, Mantovani R, Schoepf I, Tsuruta S, Mancin E, Sartori C Genet Sel Evol. 2023; 55(1):84.

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Indirect genetic effects are shaped by demographic history and ecology in Arabidopsis thaliana.

Montazeaud G, Helleu Q, Wuest S, Keller L Nat Ecol Evol. 2023; 7(11):1878-1891.

PMID: 37749402 DOI: 10.1038/s41559-023-02189-4.

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