Journal
AMERICAN JOURNAL OF BOTANY
Volume 103, Issue 9, Pages 1546-1558Publisher
WILEY
DOI: 10.3732/ajb.1600183
Keywords
cytotypic variation; multivariate morphometrics; phenotypic diversity; Phlox; plant morphology; Polemoniaceae; polyploidy
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Funding
- U.S. National Science Foundation (NSF) [DEB-1258167, DEB-1258005, DEB-1258067]
- U.S. Department of Agriculture (USDA) National Institute of Food and Agriculture
- AgBioResearch
- Kansas State University Agricultural Experiment Station [16-311-J]
- Michigan State University Herbarium Endowment
- Direct For Biological Sciences
- Division Of Environmental Biology [1258167, 1258067] Funding Source: National Science Foundation
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PREMISE OF THE STUDY: Studies of natural populations of polyploids increasingly highlight complex patterns of variation in ploidy and geographic distribution of cytotypes. As our understanding of the complexity of polyploidy grows, our understanding of the morphological correlates of polyploidy should expand as well. Here we examine in what ways, and to what degree, polyploidy affects the overall phenotype of a species across its distribution when there are three ploidies and geographic complexity in cytotype distribution. METHODS: We measured 31 morphological traits from stems, leaves, and flowers from up to 25 individuals from 11 sites across the distribution of Phlox amabilis. Chromosome counts and flow cytometry confirmed and expanded upon earlier research documenting diploid, tetraploid, and hexaploid populations, and also identified a site with two ploidies. Univariate and multivariate statistics were used to characterize the morphological effects of polyploidy. KEY RESULTS: We detected significant associations between morphology and ploidy in 11 traits spread across vegetative and reproductive structures. Generally, diploid individuals differed from polyploid individuals to a greater extent, and in different ways, than tetraploid and hexaploid plants differed from each other. Multivariate morphometrics demonstrated that the two primary axes of overall variation are driven by morphological traits associated with polyploidy, and individuals of different ploidies can be discriminated with 95% success. CONCLUSIONS: Polyploidy plays a major role in shaping overall morphological diversity in natural populations of P. amabilis.
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