The Effects of Pollen and Seed Migration on Nuclear-Dicytoplasmic Systems. II. A New Method for Estimating Plant Gene Flow From Joint Nuclear-Cytoplasmic Data

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The Effects of Pollen and Seed Migration on Nuclear-Dicytoplasmic Systems. II. A New Method for Estimating Plant Gene Flow From Joint Nuclear-Cytoplasmic Data

Maria E. Orive^a,b and Marjorie A. Asmussen^b
^a Department of Ecology and Evolutionary Biology, University of Kansas, Lawrence, Kansas 66045-2106
^b Department of Genetics, University of Georgia, Athens, Georgia 30602-7223

Corresponding author: Maria E. Orive, Department of Ecology and Evolutionary Biology, University of Kansas, Lawrence, KS 66045-2106., orive{at}ukans.edu (E-mail)

Communicating editor: A. G. CLARK

A new maximum-likelihood method is developed for estimatingunidirectional pollen and seed flow in mixed-mating plant populationsfrom counts of joint nuclear-cytoplasmic genotypes. Data mayinclude multiple unlinked nuclear markers with a single maternallyor paternally inherited cytoplasmic marker, or with two cytoplasmicmarkers inherited through opposite parents, as in many coniferspecies. Migration rate estimates are based on fitting the equilibriumgenotype frequencies under continent-island models of plantgene flow to the data. Detailed analysis of their equilibriumstructures indicates when each of the three nuclear-cytoplasmicsystems allows gene flow estimation and shows that, in general,it is easier to estimate seed than pollen migration. Three-locusnuclear-dicytoplasmic data only increase the conditions allowingseed migration estimates; however, the additional dicytonucleardisequilibria allow more accurate estimates of both forms ofgene flow. Estimates and their confidence limits for simulateddata sets confirm that two-locus data with paternal cytoplasmicinheritance provide better estimates than those with maternalinheritance, while three-locus dicytonuclear data with threemodes of inheritance generally provide the most reliable estimatesfor both types of gene flow. Similar results are obtained forhybrid zones receiving pollen and seed flow from two sourcepopulations. An estimation program is available upon request.

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