Fine-Scale Spatial Genetic Structure with Nonuniform Distribution of Individuals

Fine-Scale Spatial Genetic Structure with Nonuniform Distribution of Individuals

Agnès Doligez^a, Claire Baril^a, and Hélène I. Joly^a
^a CIRAD-Forêt, B. P. 5035, 34032 Montpellier Cedex 01, France

Corresponding author: Hélène I. Joly, CIRAD-Forêt, U. R. Diversité et Amélioration Génétique, Baillarguet, B. P. 5035, 34032 Montpellier Cedex 01, France, joly.h{at}cirad.fr (E-mail).

Communicating editor: B. S. WEIR

This paper presents the first theoretical study of spatial geneticstructure within nonuniformly distributed continuous plant populations.A novel individual-based model of isolation by distance wasconstructed to simulate genetic evolution within such populations.We found larger values of spatial genetic autocorrelations inhighly clumped populations than in uniformly distributed populations.Most of this difference was caused by differences in mean dispersaldistances, but aggregation probably also produced a slight increasein spatial genetic structure. Using an appropriate level ofapproximation of the continuous distribution of individualsin space, we assessed the potential effects of density, seedand pollen dispersal, generation overlapping, and overdominanceselection at an independent locus, on fine-scale genetic structure,by varying them separately in a few particular cases with extremeclumping. When selfing was allowed, all these input variablesinfluenced both aggregation and spatial genetic structure. Mostvariations in spatial genetic structure were closely linkedto variations in clumping and/or local density. When selfingwas not allowed, spatial genetic structure was lower in mostcases.

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