História natural e interação flores-besouros em espécies de Cerrado / Natural history and flower-beetle interactions in Cerrado species

AUTOR(ES)
DATA DE PUBLICAÇÃO

2009

RESUMO

Plant-animal interactions, such as pollination, are a key element in many terrestrial communities. The study of who interacts with whom is an important approach for understanding ecological and evolutionary processes. In some tropical communities, up to one quarter of all plant species may be pollinated by beetles. They are an ancient and much diversified insect group and they interact with angiosperms since the time of their origin and early diversification. Additionally, the interaction between beetle and floral resource provide unique opportunity to evaluate the complexity of interactions and the possibility of generalization as the tendency for plants to use a large proportion of the available beetle-visiting fauna as pollinators, or specialization with plants using a relatively small proportion of the available beetle visiting fauna as pollinators. The spatial distributions of plant species have been considered an important component in the determination of plant-animal interactions, and it is expected that many patterns observed in these systems resulting from variations in the resource distribution of plants. The availability of floral resources presents spatio-temporal variations that may affect the pollinator efficiency in its quantitative traits through frequency of occurrence of the interaction, or qualitative by its contribution to the fitness plant. Thus, the main objectives of this present thesis were: 1) describe the natural history and interactions of beetle with flowers in Cerrado species focusing the spatio-temporal heterogeneity of the resource distribution among phytophysiognomies located in the Itirapina Ecological Station and in the Cerradão area belongs to the Arruda Botelho Institute (22º12- 22º10S and 47º55- 47º57W, respectively) during two consecutive years.; 2) verify the local pattern of flowers and beetle distribution in the four cerrado phytophysiognomies studied; 3) characterize in the community level the interaction patterns observed in the community composed by beetles associated to flowers; 4) finally, comprehend deeply one of the several beetle-flower systems recorded to this studied area. We chose the D. furfuracea-beetle interaction system with aim to describe its flowering and fruit phenology and its reproductive biology verifying if there are pollen and resource limitation. Also was evaluated the role and effect of floral visitors in the fitness plant. A high number of flowering species was visited by beetles (12-40%) indicating that the data available up to now underestimate the representation of this interaction in Cerrado areas. This work represents the first study focusing in the entire beetle community associated to flowers. Was found no temporal variation in the interaction between beetles and flowers. Pollinator-plant webs had beetle species highly specialist. A. geraensis¸ C. pubescens, D. furfuracea, D. hispida, K. coriacea, S. petrea, T. formosa and X. aromatica , involved in many interactions were considered as core species. Both the visitor-flower and the pollinator-plant webs showed a compound structures mixing nested and compartmented networks structure, but predominating the compartmented pattern. These compartments are resultant from both of the many species-specific interactions between beetle and plant species and of the plant species that interact with several specialist beetle species. Both visitor-flower and pollinator-plant webs may be denominated as highly specialist from the beetle perspective whereas that these beetle fauna visited flowers of very few plant taxa over time and space. The present study showed that the Cerrado presents interaction systems between beetles and plants species with high specificity. Among the several plant species comprised in these interaction webs with high specificity, D. furfuracea presents a very interesting pollinator system, presenting a fauna composed by several pollinator beetle species highly specialized. D. furfuracea is a self-incompatible species, which studied population presented pollen and resource limitation. There are two specialized beetle guilds interacting with this plant species. The first guild is composed just by one curculionid species (Plasilia sp.) that visited flowers with low abundance (median of 0.55 beetles per flower), but presenting high frequency of occurrence (44.9% of the flowers) and their larvae consumed seed of that fruits that developed. The second guild is composed by several nitidulid beetles, principally Colopterus sp.3 that visited flowers in large abundance (median of 99 beetles per flower) and also presented high visitation occurrence (92% of flowers) and that effectively promoted the pollination. The pollination system of D. furfuracea consists is the first case of obligate pollination mutualism case involving different guilds of floral visitors. This also constitutes the first pollination system combining predictable and reliable pollinators, seed consumption, pollen and resource limitation resulting in a complex and efficient mechanism to regulate the seed consuming by floral visitor`s population and to optimize the plant fitness

ASSUNTO(S)

duguetia furfuracea spatial heterogeneity cerrado network interactions coleoptera interação besouros- flores redes de interações duguetia furfuracea heterogeneidade espacial pollination seed consumption cerrado beetle-flower interaction community ecology ecologia de comunidade polinização

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