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Geography is essential for reproductive isolation between florally diversified morning glory species from Amazon canga savannahs
Babiychuk, Elena; Teixeira, Juliana Galaschi; Tyski, Lourival; Guimaraes, José Tasso Felix; Romeiro, Luiza Araújo; da Silva, Edilson Freitas; dos Santos, Jorge Filipe; Vasconcelos, Santelmo; da Silva, Delmo Fonseca; Castilho, Alexandre; Siqueira, José Oswaldo; Fonseca, Vera Lucia Imperatriz; Kushnir, Sergei
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2019-12-02
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Babiychuk, E., Teixeira, J.G., Tyski, L. et al. Geography is essential for reproductive isolation between florally diversified morning glory species from Amazon canga savannahs. Sci Rep 9, 18052 (2019). https://doi.org/10.1038/s41598-019-53853-4
Abstract
The variety, relative importance and eco-evolutionary stability of reproductive barriers are critical to understanding the processes of speciation and species persistence. Here we evaluated the strength of the biotic prezygotic and postzygotic isolation barriers between closely related morning glory species from Amazon canga savannahs. The flower geometry and flower visitor assemblage analyses supported pollination by the bees in lavender-flowered Ipomoea marabaensis and recruitment of hummingbirds as pollinators in red-flowered Ipomoea cavalcantei. Nevertheless, native bee species and alien honeybees foraged on flowers of both species. Real-time interspecific hybridization underscored functionality of the overlap in flower visitor assemblages, questioning the strength of prezygotic isolation underpinned by diversification in flower colour and geometry. Interspecific hybrids were fertile and produced offspring in nature. No significant asymmetry in interspecific hybridization and hybrid incompatibilities among offspring were found, indicating weak postmating and postzygotic isolation. The results suggested that despite floral diversification, the insular-type geographic isolation remains a major barrier to gene flow. Findings set a framework for the future analysis of contemporary evolution of plant-pollinator networks at the population, community, and ecosystem levels in tropical ecosystems that are known to be distinct from the more familiar temperate climate models.