Using the Ornstein-Uhlenbeck process to model the evolution of interacting populations

Bartoszek, Krzysztof, 1984- (author): Linköpings universitet,Uppsala universitet,Matematiska institutionen,Statistik och maskininlärning,Filosofiska fakulteten,Uppsala University, Sweden

Glemin, Sylvain (author): Uppsala universitet,Växtekologi och evolution,CNRS Univ Montpellier IRD EPHE, UMR ISEM 5554, Montpellier, France.,Uppsala University, Sweden; CNRS University of Montpellier IRD EPHE, France

Kaj, Ingemar, 1957- (author): Uppsala universitet,Matematiska institutionen,Uppsala University, Sweden

Lascoux, Martin (author): Uppsala universitet,Växtekologi och evolution,Uppsala University, Sweden

(creator_code:org_t)

Elsevier BV, 2017
2017
English.
In: Journal of Theoretical Biology. - : Elsevier BV. - 0022-5193 .- 1095-8541. ; 429, s. 35-45

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Abstract Subject headings

The Ornstein-Uhlenbeck (OU) process plays a major role in the analysis of the evolution of phenotypic traits along phylogenies. The standard OU process includes random perturbations and stabilizing selection and assumes that species evolve independently. However, evolving species may interact through various ecological process and also exchange genes especially in plants. This is particularly true if we want to study phenotypic evolution among diverging populations within species. In this work we present a straightforward statistical approach with analytical solutions that allows for the inclusion of adaptation and migration in a common phylogenetic framework, which can also be useful for studying local adaptation among populations within the same species. We furthermore present a detailed simulation study that clearly indicates the adverse effects of ignoring migration. Similarity between species due to migration could be misinterpreted as very strong convergent evolution without proper correction for these additional dependencies. Finally, we show that our model can be interpreted in terms of ecological interactions between species, providing a general framework for the evolution of traits between "interacting" species or populations.

By the author/editor: Bartoszek, Krzys ...; Glemin, Sylvain; Kaj, Ingemar, 19 ...; Lascoux, Martin

About the subject

NATURAL SCIENCES: NATURAL SCIENCES; and Biological Scien ...; and Evolutionary Bio ...

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