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Genetic-based interactions among tree neighbors: identification of the most influential neighbors, and estimation of correlations among direct and indirect genetic effects for leaf disease and growth in Eucalyptus globulus

Costa e Silva, J, Potts, BM ORCID: 0000-0001-6244-289X, Gilmour, AR and Kerr, RJ 2017 , 'Genetic-based interactions among tree neighbors: identification of the most influential neighbors, and estimation of correlations among direct and indirect genetic effects for leaf disease and growth in Eucalyptus globulus' , Heredity, vol. 119 , pp. 125-135 , doi: 10.1038/hdy.2017.25.

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Abstract

An individual’s genes may influence the phenotype of neighboring conspecifics. Such indirect genetic effects (IGEs) are important as they can affect the apparent total heritable variance in a population, and thus the response to selection. We studied these effects in a large, pedigreed population of Eucalyptus globulus using variance component analyses of Mycosphearella leaf disease, diameter growth at age 2 years, and post-infection diameter growth at ages 4 and 8 years. In a novel approach, we initially modeled IGEs using a factor analytic (FA) structure to identify the most influential neighbor positions, with the FA loadings being position-specific regressions on the IGEs. This involved sequentially comparing FA models for the variance–covariance matrices of the direct and indirect effects of each neighbor. We then modeled IGEs as a distance-based, combined effect of the most influential neighbors. This often increased the magnitude and significance of indirect genetic variance estimates relative to using all neighbors. The extension of a univariate IGEs model to bivariate analyses also provided insights into the genetic architecture of this population, revealing that: (1) IGEs arising from increased probability of neighbor infection were not associated with reduced growth of neighbors, despite adverse fitness effects being evident at the direct genetic level; and (2) the strong, genetic-based competitive interactions for growth, established early in stand development, were highly positively correlated over time. Our results highlight the complexities of genetic-based interactions at the multi-trait level due to (co)variances associated with IGEs, and the marked discrepancy occurring between direct and total heritable variances.

Item Type: Article
Authors/Creators:Costa e Silva, J and Potts, BM and Gilmour, AR and Kerr, RJ
Keywords: direct and indirect genetic effects, intraspecific interactions, competition, disease infection, heritable variance
Journal or Publication Title: Heredity
Publisher: Nature Publishing Group
ISSN: 0018-067X
DOI / ID Number: 10.1038/hdy.2017.25
Copyright Information:

Copyright 2017 Macmillan Publishers Limited, part of Springer Nature

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