Abstract
Ziziphus jujuba var. spinosa has been used as a windbreak and for soil conservation and water retention. Previous studies focused on pharmacological effects and extraction of chemical components in this species, and very few explored the breeding system. The present study combined the analysis of floral morphology, behavior of flower visitors, and artificial pollination to reveal reproductive characteristics of the species. Its flowers are characterized by dichogamy, herkogamy, and stamen movement, which are evolutionary adaptations to its breeding system. There were more than 40 species of visiting insects, mainly Hymenoptera and Diptera, and the characteristics of dichogamous and herkogamous flower adapted to the visiting insects. The breeding system is outcrossing, partially self-compatible, and demand for pollinators. The fruit setting rate after natural pollination was 2%. Geitonogamy and xenogamy did not significantly increase the fruit setting rate, indicating that the low fruit setting rate was not due to pollen limitation by likely caused by resource limitation or fruit consumption. The fruit setting rate of zero in emasculated and in naturally and hand self-pollinated individuals suggested the absence of apomixis and spontaneous self-pollination. The above results can be utilized in studies on evolution and cultivation of Z. jujuba var. spinosa.
Highlights
Ziziphus jujuba var. spinosa has been used as a windbreak and for soil conservation and water retention
The obvious way to promote outcrossing is by preventing self-pollination
A decline in self-pollination has been observed in a large number of plants, and there is evidence that the process of self-pollination is genetically c ontrolled[42]
Summary
Ziziphus jujuba var. spinosa has been used as a windbreak and for soil conservation and water retention. The present study combined the analysis of floral morphology, behavior of flower visitors, and artificial pollination to reveal reproductive characteristics of the species. Understanding the reproductive characteristics of hermaphrodites will help us to interpret plant evolution. Different pollination methods were used to deal with a series of plants in order to realize the discussion of their reproductive ecological characteristics in previous s tudies[7]. Some hermaphroditic flowering plants have a temporal separation of male and female functions, which is traditionally considered an effective mechanism to prevent self-pollination in flowers 8. Attracting more pollinators to participate in pollen transfer and thereby improve the success rate of pollination is an important driving force of flower evolution[8]. Plants may self-pollinate, cross-pollinate with the help of insects and other external factors, or both. Self-pollination may Scientific Reports | (2021) 11:10318
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