%0 Journal Article %1 JaroslawBurczyk02192006 %A Burczyk, Jaroslaw %A Adams, W. Thomas %A Birkes, David S. %A Chybicki, Igor J. %D 2006 %J Genetics %K dispersal dispersal_estimation gene_flow pollen_dispersal %P genetics.105.046805 %R 10.1534/genetics.105.046805 %T Using Genetic Markers to Directly Estimate Gene Flow and Reproductive Success Parameters in Plants Based on Naturally Regenerated Seedlings %U http://www.genetics.org/cgi/content/abstract/genetics.105.046805v1 %X Estimating seed and pollen gene flow in plants based on samples of naturally regenerated seedlings can provide much needed information about 'realized gene flow', but seems to be one of the greatest challenges in plant population biology. Traditional parentage methods, because of their inability to discriminate between male and female parentage of seedlings, unless supported by uniparentally inherited markers, are not capable of precisely describing seed and pollen aspects of gene flow realized in seedlings. Here, we describe a maximum-likelihood method for modeling female and male parentage in a local plant population based on genotypic data from naturally established seedlings, and when the location and genotypes of all potential parents within the population are known. The method models female and male reproductive success of individuals as a function of factors likely to influence reproductive success (e.g., distance of seed dispersal, distance between mates, and relative fecundity - i.e., female and male selection gradients). The method is designed to account for levels of seed and pollen gene flow into the local population from unsampled adults, therefore it is well suited to isolated, but also wide-spread natural populations, where extensive seed and pollen dispersal complicates traditional parentage analyses. Computer simulations were performed to evaluate the utility and robustness of the model and estimation procedure and to assess how the exclusion power of genetic markers (isozymes or microsatellites) affects the accuracy of the parameter estimation. In addition, the method was applied to genotypic data collected in Scots pine (isozymes) and oak (microsatellites) populations to obtain preliminary estimates of long-distance seed and pollen gene flow and the patterns of local seed and pollen dispersal in these species.

@article{JaroslawBurczyk02192006, abstract = {Estimating seed and pollen gene flow in plants based on samples of naturally regenerated seedlings can provide much needed information about 'realized gene flow', but seems to be one of the greatest challenges in plant population biology. Traditional parentage methods, because of their inability to discriminate between male and female parentage of seedlings, unless supported by uniparentally inherited markers, are not capable of precisely describing seed and pollen aspects of gene flow realized in seedlings. Here, we describe a maximum-likelihood method for modeling female and male parentage in a local plant population based on genotypic data from naturally established seedlings, and when the location and genotypes of all potential parents within the population are known. The method models female and male reproductive success of individuals as a function of factors likely to influence reproductive success (e.g., distance of seed dispersal, distance between mates, and relative fecundity - i.e., female and male selection gradients). The method is designed to account for levels of seed and pollen gene flow into the local population from unsampled adults, therefore it is well suited to isolated, but also wide-spread natural populations, where extensive seed and pollen dispersal complicates traditional parentage analyses. Computer simulations were performed to evaluate the utility and robustness of the model and estimation procedure and to assess how the exclusion power of genetic markers (isozymes or microsatellites) affects the accuracy of the parameter estimation. In addition, the method was applied to genotypic data collected in Scots pine (isozymes) and oak (microsatellites) populations to obtain preliminary estimates of long-distance seed and pollen gene flow and the patterns of local seed and pollen dispersal in these species. }, added-at = {2009-10-28T16:55:26.000+0100}, author = {Burczyk, Jaroslaw and Adams, W. Thomas and Birkes, David S. and Chybicki, Igor J.}, biburl = {https://www.bibsonomy.org/bibtex/2fb38af23950c07a62fe8cb5365c3e504/peter.ralph}, description = {Using Genetic Markers to Directly Estimate Gene Flow and Reproductive Success Parameters in Plants Based on Naturally Regenerated Seedlings -- Burczyk et al., 10.1534/genetics.105.046805 -- Genetics}, doi = {10.1534/genetics.105.046805}, interhash = {e1193d42acd439d607b5e205ebf2fac3}, intrahash = {fb38af23950c07a62fe8cb5365c3e504}, journal = {Genetics}, keywords = {dispersal dispersal_estimation gene_flow pollen_dispersal}, pages = {genetics.105.046805}, timestamp = {2009-10-28T16:55:26.000+0100}, title = {{Using Genetic Markers to Directly Estimate Gene Flow and Reproductive Success Parameters in Plants Based on Naturally Regenerated Seedlings}}, url = {http://www.genetics.org/cgi/content/abstract/genetics.105.046805v1}, year = 2006 }