Delgado, Marina Nevesde Morais, Helena CastanheiraRossatto, Davi Rodrigo
10页
查看更多>>摘要:Herbivory pressure is an important ecological aspect to determine quantitative variation in plant defenses, such as the number of extrafloral nectaries (EFNs) and their nectar amount and quality. Extrafloral nectaries can attract ants, which can be considered a type of induced plant defense. Besides, plants tend to invest more in defense when they are more vulnerable to herbivores. Therefore, we aimed to elucidate if Stryphnodendron adstringens (Fabaceae), a common Cerrado tree species, when subjected to damage (by manual leaf cutting and experimental fire) would produce a greater number of EFNs and changes its nectar quality on newly produced leaves in comparison with plants not subjected to these treatments. Leaf damage was performed artificially directly on the plant branches and at the entire plant canopy (by means of scissors or fire events). Extrafloral nectary density was higher in new leaves produced after the treatment application (artificial herbivory and fire) in comparison with plants under control treatment. The amount of nectar was also higher under treatments in comparison with control, with a significant change on nectar quality in plants subjected to the treatments of artificial herbivory. The results provided support for the hypothesis that EFNs are an inducible defensive strategy in S. adstringens, confirming the existence of phenotypic plasticity given environmental pressures.
查看更多>>摘要:Besides its importance as an ornamental plant, Justicia betonica L. is also used as a medicinal plant for the treatment of several human disorders. However, the population size and abundance of the plant species are very low in Indian states, including West Bengal. The breeding system and pollination ecology of J. betonica are still unclear. Therefore, some reproductive aspects were investigated in order to provide important information for the sustainability of the species. The flowering duration spanned from December to May, with its peak in February-March. Flower opening time was much earlier (5.00-8.00 a.m.) on a hot day (in April-May) than on a cold day (10.00 a.m.-12.00 p.m. in December-January). The time of anther dehiscence coincided with the flower opening time; however, the stigma became receptive later. The plant species is self-compatible but dependent on pollinators for fruit and seed sets. Members of different insect groups like ants, bees, butterflies, flies, moths and wasps visit the flowers. Among them, Allorhynchium metallicum and Halictus acrocephalus are the primary pollinators (based on the "relative pollinator service"). The plant species showed a significant pollination deficit (coefficient of pollination deficit [D] = 0.32) in the open condition. Larvae of the florivorous moth Gatesclarkeana erotias significantly reduced reproductive success by eating their floral parts, ovules and immature seeds. In conclusion, combining the pollination deficit and the feeding activity of phytophagous insects (moth larvae) may reduce the reproductive fitness of J. betonica in the study regions.
查看更多>>摘要:Calanthe amamiana is a terrestrial orchid that thrives on the shady forest floors of broad-leaved forests on Amami Island, central Ryukyus, Japan. Here, I report on the floral and pollination biology of this critically endangered orchid based on a 7-year study conducted in the species' natural habitats. As the nectarless flowers are probably self-compatible but are unable to autonomously self-pollinate, they need to attract pollen vectors by deceit for pollination. To advertise themselves, the flowering inflorescences, which comprise a few to dozens of flowers, use whitish floral colors that are comparatively conspicuous against the shaded background. The exclusive pollinator was the long-horned bee Eucera okinawae, which nests in soils of the forest floor, although bee abundance varied considerably among study years. Natural fruit-set ratios were generally low but showed interannual variation. The annual fruit-set ratios were positively correlated with annual bee abundance, thereby suggesting that under natural conditions, the orchid is pollinator-limited. Given that C. amamiana is dependent exclusively on E. okinawae for pollination and is also probably pollinator-limited, conservation plans for this orchid should take into consideration the welfare of long-horned bees. In particular, as nectariferous flowers were unavailable within broad-leaved forests, to satisfy the foraging requirements of long-horned bees, conservation managers should be cognizant of conservation values of flowering plants distributed in sun-lit sites near orchid habitats, and manage those in an appropriate manner.
NSTL
Wiley