%0 Journal Article %1 nagylaki1978diffusion %A Nagylaki, Thomas %D 1978 %I Springer-Verlag %J Journal of Mathematical Biology %K clines diffusion_approximation %N 4 %P 375-382 %R 10.1007/BF02463002 %T A diffusion model for geographically structured populations %U http://dx.doi.org/10.1007/BF02463002 %V 6 %X A diffusion model is derived for the evolution of a diploid monoecious population under the influence of migration, mutation, selection, and random genetic drift. The population occupies an unbounded linear habitat; migration is independent of genotype, symmetric, and homogeneous. The treatment is restricted to a single diallelic locus without dominance. With the customary diffusion hypotheses for migration and the assumption that the mutation rates, selection coefficient, variance of the migrational displacement, and reciprocal of the population density are all small and of the same order of magnitude, a boundary value problem is deduced for the mean gene frequency and the covariance between the gene frequencies at any two points in the habitat.

@article{nagylaki1978diffusion, abstract = {A diffusion model is derived for the evolution of a diploid monoecious population under the influence of migration, mutation, selection, and random genetic drift. The population occupies an unbounded linear habitat; migration is independent of genotype, symmetric, and homogeneous. The treatment is restricted to a single diallelic locus without dominance. With the customary diffusion hypotheses for migration and the assumption that the mutation rates, selection coefficient, variance of the migrational displacement, and reciprocal of the population density are all small and of the same order of magnitude, a boundary value problem is deduced for the mean gene frequency and the covariance between the gene frequencies at any two points in the habitat.}, added-at = {2013-11-12T13:27:54.000+0100}, author = {Nagylaki, Thomas}, biburl = {https://www.bibsonomy.org/bibtex/23229ef5c3ea326f2b991c9571c5ea3a3/peter.ralph}, doi = {10.1007/BF02463002}, interhash = {38b0e9d26b115cab8a110d9ba39179e5}, intrahash = {3229ef5c3ea326f2b991c9571c5ea3a3}, issn = {0303-6812}, journal = {Journal of Mathematical Biology}, keywords = {clines diffusion_approximation}, language = {English}, number = 4, pages = {375-382}, publisher = {Springer-Verlag}, timestamp = {2013-11-12T13:27:54.000+0100}, title = {A diffusion model for geographically structured populations}, url = {http://dx.doi.org/10.1007/BF02463002}, volume = 6, year = 1978 }