Abstract
Outcrossing plant species are more likely to exhibit autonomous selfing in marginal habitats to ensure reproduction under conditions of limited pollinator and/or mate availability. Distyly is a classical paradigm that promotes outcrossing; however, little is known about the variation in floral traits associated with distylous syndrome in marginal populations. In this study, we compared the variation in floral traits including stigma and anther height, corolla tube length, herkogamy, and corolla diameter between the central and peripheral populations of the distylous Primula wannanensis, and assessed the variation of floral traits at early and late florescence stages for each population. To evaluate the potential consequences of the variation in floral traits on the mating system, we investigated seed set in each population under both open-pollinated and pollinator-excluded conditions. The flower size of both short- and long-styled morphs was significantly reduced in late-opening flowers compared with early opening flowers in both central and peripheral populations. Sex-organ reciprocity was perfect in early opening flowers; however, it was largely weakened in the late-opening flowers of peripheral populations compared with central populations. Of these flowers, disproportionate change in stigma height (elongated in S-morph and shortened in L-morph) was the main cause of reduced herkogamy, and seed set was fairly high under pollinator-excluded condition. Our results provide empirical support for the hypothesis on the evolution of delayed autonomous selfing in marginal populations of distylous species. Unsatisfactory pollinator service is likely to have promoted reproductive assurance of distylous plants with largely reduced herkogamy mimicking “homostyles.”
Highlights
Living organisms, especially plants, usually display a certain range of distribution (Sexton et al, 2009; Cross and Eckert, 2020), and their distribution patterns generally follow the “abundant center” model
Compared with early opening flowers, the late-opening flowers showed significantly reduced corolla diameter (CD), corolla tube length (CTL), and stigma height (SH) in both morphs, and this declining trend was more striking in peripheral populations than in central populations (Figure 3)
We showed that the size of late-opening flowers was significantly reduced in both marginal and central populations, and the HE value was more strongly decreased in peripheral populations than in central populations (Figure 3)
Summary
Especially plants, usually display a certain range of distribution (Sexton et al, 2009; Cross and Eckert, 2020), and their distribution patterns generally follow the “abundant center” model. Compared with central populations, peripheral populations are more prone to fix unique genotypes, morphologies, life histories, and biological tolerance (Grant and Antonovics, 1978; Blows and Hoffmann, 1993; Sagarin and Gaines, 2002; Sexton et al, 2009). These unique variations in marginal populations are associated with rapid natural adaptation and radical evolution and speciation (Grundt et al, 2006; Eckert et al, 2008; Barrett and Harder, 2017). Comparing central and peripheral populations and understanding how organisms adapt to marginal habitats have been popular topics of research in the fields of ecology, evolutionary biology, and genetics (Eckert et al, 2008; Sexton et al, 2009; Villellas et al, 2013)
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