Abstract
ABSTRACT Plant-pollinator interactions range from obligatory specialists to facultative generalists, and floral morphology and pollination system may not match completely. The floral biology, reproductive system and floral visitors of a species of the tribe Rhipsalideae were investigated with a focus on the consistency between the pollination system and the floral phenotype. Rhipsalis neves-armondii is an obligate xenogamous species, due to self-sterility. Its flowers are white, small and diurnal, and radially symmetrical. These features, along with their small amount of nectar, characterize the flowers as phenotypic generalists. The most frequent pollinators were a solitary oligolectic species of Andrenidae (Rhophitulus solani), two species of Meliponinae (Trigona spinipes and T. braueri) and Apis mellifera. Despite the generalist floral phenotype, the pollination system is functionally specialized, since only small bees performed effective visits. Flowers of R. neves-armondii may represent a case of cryptic floral specialization in which attributes other than morphology act as filters, restricting them to a single functional group of pollinators. Moreover, the four most frequent species of pollinators cover a spectrum ranging from solitary oligolectic to social polylectic bees, including an exotic species. These results illustrate the distinct dimensions of specialization-generalization that may occur in the pollination process of a single species.
Highlights
The interactions between plants and pollinators are one of the most frequent associations in nature, and are highly important in structuring populations, communities and ecosystems (Ollerton 2006; Sargent & Ackerly 2008)
The floral biology, reproductive system and floral visitors of a species of the tribe Rhipsalideae were investigated with a focus on the consistency between the pollination system and the floral phenotype
Flowers of R. neves-armondii may represent a case of cryptic floral specialization in which attributes other than morphology act as filters, restricting them to a single functional group of pollinators
Summary
The interactions between plants and pollinators are one of the most frequent associations in nature, and are highly important in structuring populations, communities and ecosystems (Ollerton 2006; Sargent & Ackerly 2008). Mutualism between these two groups of organisms is based on a condition of mutual exploitation, in which the animals acquire food or some other resource, while the plants obtain effective vectors for their sexual reproduction (Nicolson & Wright 2017). Certain flower characteristics are expected to be adaptive responses to the pressures exerted by the respective group
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