Abstract
With over 25,000 species, orchids are among families with remarkable high rate of diversification. Since Darwin's time, major advances attributed the exceptional diversity of orchids to plant–pollinator interactions. However, unraveling the processes and factors that determine the phenotypic and genotypic variation of natural orchid populations remains a challenge. Here, we assessed genetic population structure and floral differentiation in recently diverged leafless Vanilla species in a world biodiversity hotspot, Madagascar, using seven microsatellite loci and 26 morphometric variables. Additionally, analyses were performed to test for the occurrence of any patterns of isolation by distance, isolation by environment, and isolation by adaptation and to detect possible physical barriers that might have caused genetic discontinuities between populations. Positive inbreeding coefficients detected in 22 populations were probably due to the presence of null alleles, geitonogamy and/or some admixture (sympatric species). In contrast, the only high‐altitude population showed an important rate of clonality leading to heterozygote excess. Genetic diversity was maximum in western populations, suggesting a postglacial colonization to the north and south. Clustering analyses identified seven genetic groups characterized by specific floral traits that matched five botanical descriptions in the literature. A contribution of montane refugia and river barriers on population differentiation was detected. We also detected combined effects of IBD/IBE and IBE/IBA on genetic differentiation and suggested this pattern is more likely determined by ecological isolation, although pollinator‐mediated divergent selection could not be ruled out for some of the species. Overall, this study provides further insights on speciation in orchids, a group for which Madagascar shows one of the world's highest level of endemism and confirms the importance of the peculiar biogeography of the island in shaping species differentiation.
Highlights
Understanding how and at what rate phenotypic and genetic differentiation occurs across natural populations is one of the most fundamental questions in evolutionary biology (Ghalambor et al, 2007; Lekberg et al, 2012; Schmid & Guillaume, 2017)
It is well established that three mechanisms and their interactions shape the patterns of population diversity and structure, which are reduced gene flow, genetic drift, and natural selection (Gandon & Nuismer, 2009; Johnson et al, 2018; Wright, 1931)
We focused on five indigenous Malagasy Vanilla species (Figure 1b), among the seven botanically described leafless species in the Southwest Indian Ocean (SWIO) region comprising Madagascar, Seychelles, Comoros, Mayotte and the eastern Africa coast and islands (Allorge-Boiteau, 2005, 2013; Portères, 1954)
Summary
Understanding how and at what rate phenotypic and genetic differentiation occurs across natural populations is one of the most fundamental questions in evolutionary biology (Ghalambor et al, 2007; Lekberg et al, 2012; Schmid & Guillaume, 2017). It is well established that three mechanisms and their interactions shape the patterns of population diversity and structure, which are reduced gene flow, genetic drift, and natural selection (Gandon & Nuismer, 2009; Johnson et al, 2018; Wright, 1931) They are strongly influenced by many interrelating factors including historical events, human activities, distance and barriers, and ecological variations (Gomez et al, 2009; Wright, 1943; Zhang et al, 2014). Morphological structure and differentiation of populations, to identify possible geographic barriers and to quantify the effects of isolation by distance (IBD), isolation by adaptation (IBA), and isolation by environment (IBE) in diversification processes
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