Environmental correlates of cytotype distribution in Andropogon gerardii (Poaceae)

• Premise of the study: Information about geographic distribution of cytotypes can provide insight into the origin and maintenance of autopolyploid complexes and builds a foundation for understanding cytotype differentiation and the dynamics of mixed‐ploidy populations. Here, we investigate environmental correlates of the geographic distributions of 6 x and 9 x individuals in the ecologically dominant grass Andropogon gerardii to examine the role of climate in shaping patterns of cytotype distribution in this species. • Methods: Flow cytometry was used to estimate ploidy level in 352 individuals from 32 populations across North America. Ecological differentiation of cytotypes was tested by relating BIOCLIM variables to cytotype distribution using principal components analysis and partial linear regression. • Key results: Broad geographic sampling confirmed two primary cytotypes—6 x (hexaploid) and 9 x (enneaploid)—and revealed that 9 x plants are more common than previously thought. Enneaploids occur frequently in the southern portions of the range, with hexaploids dominating in northern regions. Mixed‐ploidy populations were common (46.9%). Principal components analysis and partial linear regression indicated that reduced summer precipitation and increased variation in diurnal and seasonal temperature range were significant predictors of the frequency of 9 x plants in a population. • Conclusions: Results indicate that (1) geographic distribution of 6 x and 9 x individuals is nonrandom; (2) environmental variables are associated with cytotype distribution in A. gerardii ; and (3) nearly half of populations surveyed include both 6 x and 9 x individuals. The persistence of mixed‐ploidy populations may reflect a combination of recurrent polyploid formation and the prevalence of clonal reproduction.