Search citation statements
Paper Sections
Citation Types
Year Published
Publication Types
Relationship
Authors
Journals
Shifts between diurnal and nocturnal pollination systems have been important in the radiation of the angiosperms. Here we examined the pollination ecology of Crinum campanulatum (Amaryllidaceae), an aquatic geophyte. Although visits by noctuid moths were observed in the evening, the flowers of C. campanulatum were visited mainly by honeybees and carpenter bees. The species was found to be self-incompatible, and flowers exposed to only diurnal visitors produced a higher number of fruits and seeds than those exposed to only nocturnal visitors. Overall seed production was not pollen limited. The floral scent was found to be dominated by aromatic compounds, including many with functional groups containing nitrogen. The chemical composition of scent did not differ between day and night samples, but floral scent emissions during the day were ~8-fold greater than those at night. Flower colour changes from white to a dark pink over four days from anthesis, which is associated with increased conspicuousness to bees. Ancestral state reconstruction revealed that long-tubed flowers pollinated by hawkmoths are ancestral and widespread in Crinum. These results are indicative of a shift from nocturnal to diurnal pollination in Crinum that is associated with a reduction in flower size and an increase in diurnal scent emission.
Shifts between diurnal and nocturnal pollination systems have been important in the radiation of the angiosperms. Here we examined the pollination ecology of Crinum campanulatum (Amaryllidaceae), an aquatic geophyte. Although visits by noctuid moths were observed in the evening, the flowers of C. campanulatum were visited mainly by honeybees and carpenter bees. The species was found to be self-incompatible, and flowers exposed to only diurnal visitors produced a higher number of fruits and seeds than those exposed to only nocturnal visitors. Overall seed production was not pollen limited. The floral scent was found to be dominated by aromatic compounds, including many with functional groups containing nitrogen. The chemical composition of scent did not differ between day and night samples, but floral scent emissions during the day were ~8-fold greater than those at night. Flower colour changes from white to a dark pink over four days from anthesis, which is associated with increased conspicuousness to bees. Ancestral state reconstruction revealed that long-tubed flowers pollinated by hawkmoths are ancestral and widespread in Crinum. These results are indicative of a shift from nocturnal to diurnal pollination in Crinum that is associated with a reduction in flower size and an increase in diurnal scent emission.
Chemical traits (primary and secondary metabolites) are important features of plants. An increasing number of studies have focused on the ecological significance of secondary metabolites in plant parts, especially in pollen. Ericaceae species exhibit significant morphological variations and diverse colors, are widely distributed throughout China and are popular ornamental garden plants. The chemical trait of pollen in Ericaceae species and their potential ecological significance remain unclear. We selected a total of nine Ericaceae species from three nature reserves in southwestern China, which were the predominant flowering Ericaceae plants for each site, and measured their floral characteristics, nectar volume and sugar concentration. We determined the types of pollinators of these species based on a literature review and used UPLC-QTOF-MS to analyze the types and relative contents of primary metabolites (amino acids and fatty acids) and secondary metabolites (terpenoids, phenolics and nitrogenous compounds) in the pollen and other tissues, including the stems, leaves, petals and nectar. The results showed that each species exhibited unique floral characteristics. Enkianthus ruber, Pieris formosa, Rhododendron agastum, R. irroratum, R. virgatum and R. rubiginosum were pollinated by bees, and R. delavayi, R. decorum and R. excellens were pollinated by diverse animals (bees, birds and Lepidoptera). The pollen of these Ericaceae species was rich in phenolics and terpenoids, especially flavonoids. Grayanotoxin, andromedotoxin and asebotin (toxic diterpene compounds) were also detected in the pollen of some of the Ericaceae species in our study, and their response value was low. The relative contents and diversity of secondary metabolites in the pollen were higher than those in the nectar but lower than those in the leaves, petals and stems. The five chemical compounds with the highest content (four flavonoids, one triterpene) in the pollen were also detected in the stems, leaves and petals, and the response value of most of these chemicals in pollen was not significantly correlated with that in other tissues. Rhododendron species has a closer relationship with chemical traits in pollen compared with Enkianthus and Pieris species. The response value of total secondary metabolites in the pollen of species pollinated only by bees was higher than that of species pollinated by diverse animals. Our research indicates that the pollen of ericaceous species contains a wide array of metabolites, establishing a foundation for advancing the nutritional potential of the pollen of horticultural ericaceous species and deepening our understanding of its chemical and ecological significance.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.