The effects of migration load, selfing, inbreeding depression, and the genetics of adaptation on autotetraploid versus diploid establishment in peripheral habitats.

The distribution and abundance of polyploids has intrigued biologists since their discovery in the early 20th century. A pattern in nature that may give insight to processes that shape the distribution and abundance of polyploids is that polyploid populations are sometimes associated with peripheral habitats within the range of a species of mixed ploidy. Here, adaptation and competition of a diploid versus an autotetraploid population in a peripheral habitat are examined theoretically. It is shown that a nascent autotetraploid population adapts to and outcompetes a diploid population in the periphery when the rate of gamete dispersal is high, and when the mode of gene action is recessive for moderate to high rates of selfing. With additive or dominant modes of gene action, the conditions for an autotetraploid to outcompete a diploid in the periphery appear determined more by the rate of selfing and less by gamete dispersal. All of these results are based on empirical work that suggests inbreeding depression is higher in diploids versus autotetraploids. Generally, the results indicate that, although autotetraploids incur minority cytotype exclusion, diploids face burdens themselves. In the case of adaptation to a peripheral habitat, this burden is migration load from gamete and propagule dispersal.