Ana Carolina Galindo da Costa scite author profile

Ana Carolina Galindo da Costa

5Publications

83Citation Statements Received

156Citation Statements Given

How they've been cited

How they cite others

188

139

Affiliations

Vale Technological Institute, Federal University of Pernambuco

Publications

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Flowering dynamics and pollination system of the sedge Rhynchospora ciliata (Vahl) Kükenth (Cyperaceae): does ambophily enhance its reproductive success?

Costa¹,

Machado²

2012

Plant Biology

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Cyperaceae are characteristically anemophilous, but there are some reports of species re-adapted to entomophily, such as Rhynchospora ciliata. Our objective was to investigate: (1) the distribution pattern of flowers in inflorescences of Rhynchospora ciliata; (2) the dynamics of its anthesis; and (3) whether R. ciliata is pollinated by bees, by wind or by both. Additionally, we tested the hypotheses: (i) the hypsophylls and/or anthers attract pollinators, and (ii) biotic vectors enhance the reproductive success of R. ciliata. We analysed floral biology, dynamics of anthesis, frequency and behaviour of insects visiting flowers; we also carried out experiments on flower attractiveness, pollination by wind and reproductive success. Rhynchospora ciliata has flowers with anemophilous attributes, including anthers exposed during anthesis; however, the anthers (here considered a mixed trait) together with the white hypsophylls can be considered as attributes that favour entomophily. Both wind and four species of bee were considered as pollen vectors of R. ciliata. Through flower attractiveness tests, we observed that the hypsophylls do not affect the frequency of pollinating bees and that the absence of exposed anthers affects the average number of visits, probably because pollen is the only floral resource. Reproductive tests indicate that R. ciliata is self-incompatible and that ambophily enhances its reproductive success.

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Influence of environmental variation on the pollination of the ambophilous sedge Rhynchospora ciliata (Cyperaceae)

et al. 2018

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A Semivolatile Floral Scent Marks the Shift to a Novel Pollination System in Bromeliads

et al. 2021

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Comparative floral biology of Rhynchospora ciliata (Vahl) Kukenth and R. pubera (Vahl) Boeckeler (Cyperaceae): the role of white involucral bracts in attracting pollinating insects

Costa

Thomas

Machado

2017

Plant Species Biology

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Although Cyperaceae are considered anemophilous, some species exhibit features that are attractive to pollinators, such as the white UV-reflecting involucral bracts of Rhynchospora ciliata. But how effective are these conspicuous adaptations? To address this question, we tested the hypothesis that species such as R. ciliata are visited by greater numbers of pollinating insects than similar species with green involucral bracts, such as R. pubera. We compared the floral biology of both species and the number of visits to sympatric populations of each species, associating them with the availability of pollen and the pollination system. We verified that species with white involucral bracts are preferred, because there were more visits to R. ciliata in the first 2 h the flowers were open. The peak visitation in R. pubera was 2 h after the flowers opened, when the pollen of R. ciliata was exhausted. Although the involucral bracts of R. pubera are green, the spikelet scales and anthers are white and reflect ultraviolet light. Overall, flowers of R. pubera exhibit fewer white or reflective surfaces and are probably less conspicuous to a bee than those of R. ciliata. It is possible that R. pubera is a second option for visitors after the first 2 h of anthesis. The two different peaks in visitation minimize interspecific competition for pollinators, suggesting that R. ciliata and R. pubera together could attract more generalist pollinators and, instead of competing, facilitate the pollination of both species. Although R. pubera is autogamous and self-compatible, both wind and insects are important to its reproductive success.

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Visual and olfactory floral cues related to ambophilous pollination systems in Poaceae

Schulze-Albuquerque

Costa

Milet‐Pinheiro

et al. 2019

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Usually considered anemophilous, grasses (Poaceae) have been the subject of few studies that recorded insects visiting their flowers. Such visitors, with wind, could act as pollen vectors in a possible ambophilous system. Since colour and scent are floral cues attracting pollinating insects, we aimed to provide the first insights into how these cues could be involved in the attraction of pollinators by grasses. Chloris barbata, Paspalum maritimum (with two morphotypes), P. millegrana and Urochloa plantaginea were studied. We determined the role of each pollen vector (wind and insect) and we registered the frequency of floral visitors. Also, we characterized the colour reflectance of glumes, anthers and stigmas and we determined the colour space in the bee colour hexagon and the chemical composition of floral scents. The floral structures of each species reflect colour differently and are perceived differently by pollinators. Furthermore, the volatile organic compounds detected are similar to those found in entomophilous species. In two of the grass species, we registered eight species of visitors, including bees, wasps and flies. Overall, wind was the most important vector for reproductive success. Insects, however, may induce wind pollination by creating pollen clouds when they visit inflorescences.

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