Teses em Zoologia (Doutorado) - PPGZOOL/ICB

URI Permanente para esta coleçãohttps://repositorio.ufpa.br/handle/2011/3419

O Doutorado Acadêmico foi criado em 1999 e pertence ao Programa de Pós-Graduação em Zoologia (PPGZOOL) do Instituto de Ciências Biológicas (ICB) foi consolidado como um convênio entre Universidade Federal do Pará (UFPA) e Museu Paraense Emílio Goeldi (MPEG).

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Agora exibindo 1 - 4 de 4

Acesso aberto (Open Access)
Ecologia da polinização do buriti (Mauritia flexuosa L. – Arecaceae) na restinga de Barreirinhas, Maranhão, Brasil
(Universidade Federal do Pará, 2013) MENDES, Fernanda Nogueira; VALENTE, Roberta de Melo; http://lattes.cnpq.br/9638288458835324; ESPOSITO, Maria Cristina; http://lattes.cnpq.br/2112497575917273
The study of native palms is important for its great value economic and in maintenance of communities of several species of vertebrates and invertebrates that feed on their fruits, seeds and leaves. The efficiency in the production of palm fruits is directly related to the presence of pollinating insects, especially beetles, bees and flies. The palm Mauritia flexuosa, commonly known as buriti, is the most abundant species in Brazil and is also called the "tree of life" because it is 100% usable. This study aimed to contribute to the knowledge of the pollination ecology of buriti in Restinga, in the municipality of Barreirinhas, Maranhão, Brazil. Therefore, we obtained data on reproductive phenology, floral biology, breeding system, and flower visitors. For phenological monitoring 25 individuals of each sex were selected, which were observed from August/2009 to October/2012. The stages of a flower and fruit were related to climatic variables through correlation Speaman. The process of anthesis and floral longevity was observed during peak flowering species, verifying the pollen viability, stigmatic receptivity, the regions emitting scent and occurrence of thermogenesis. Tests of cross-pollination and apomixis were made to check the reproductive system. The transport of pollen grains by wind was observed through glass slides greased with vaseline which have remained hanging near the pistillate inflorescences for 24 hours. The floral visitors were collected by bagging inflorescences of 20 of each sex and were classified according to the frequency and behavior. The buriti presented annual, synchronous and seasonal phenological pattern with flowering from August to November and peak fruit falling in September, which corresponds to the dry season, differing from that of the Amazon, where these phenological events occurred in rainy season. This difference can be explained by the greater availability of water in the region, which makes the buriti not necessarily depend on the rains to flowering. This was evidenced by the significant negative correlation of phenophases with precipitation and relative humidity. A strong solar irradiation and water availability in the environment contributed to the success in flowering and fruiting of buriti. In addition, biotic factors may have influenced the phenology, whose reproductive strategy adopted appears to be synchronization of flowering and fruiting with the activity of pollinators and seed dispersers. Thus the species warrants its reproduction in an optimal period for seed germination and seedling establishment. The reproductive system of buriti is xenogamic. The set of floral traits, combined with the abundance of pollen and the strong odor suggests that the buriti has as its main strategy pollination cantharophly, but the wind has a great importance in pollination. Besides presenting a mixed pollination (ambophily), flowers buriti attracted a wide variety of visitors, whose wealth was higher than those observed in the the Amazon.
Acesso aberto (Open Access)
Heterogeneidade ambiental e diversidade de peixes de riachos na Amazônia
(Universidade Federal do Pará, 2017-09-07) BENONE, Naraiana Loureiro; MONTAG, Luciano Fogaça de Assis; http://lattes.cnpq.br/4936237097107099; ESPOSITO, Maria Cristina; http://lattes.cnpq.br/2112497575917273
Amazon streams are highly heterogeneous systems that encompass a remarkable diversity. Due to the increasing threats to these systems, it is necessary to understand how ecological process in natural areas affect streams and their fish biota. This thesis was divided in three chapters and aims to answer the following questions: 1) How much do catchment variables affect the physical habitat of small streams in the Amazon? 2) What is the relative contribution of environmental and spatial variables on taxonomic and functional alpha and beta diversity of stream fish? 3) How much are distinct components of biodiversity (species diversity, taxonomic distinctness, and functional diversity) congruent and how much can they be predicted from catchment variables? Fifty seven streams were sampled across six river basins in the Amazon region. For environmental characterization, a standardized protocol was used to obtain more than 140 local variables, and 11 catchment variables were obtained from aerial images. Fish assemblages were sampled with hand nets during a six-hour period. Stream catchments were divided in two groups based on altitude and slope. These two variables influenced streams habitats, regulating flow velocity and the types and proportions of substrates. The taxonomic and functional patterns of fish assemblages were affected by environmental filters operating at the catchment scale. Nonetheless, variables at the local scale were particularly important to taxonomic and functional alpha diversity. Despite the significant role of environmental filters, limited dispersal was the main driver of variation in fish diversity, indicating a strong biogeographic factor. Finally, various components of diversity exhibited intermediate congruence, which suggests that no single component can describe patterns of fish diversity. In addition, catchment variables alone could not accurately predict diversity patterns, and therefore it is recommended that additional explanatory variables, including descriptors of local environmental conditions, are important to include in studies of stream fish diversity.
Acesso aberto (Open Access)
Padrões de estruturação de adultos de libélulas em uma área de proteção e seu entorno na Amazônia oriental
(Universidade Federal do Pará, 2016-09-30) MONTEIRO JÚNIOR, Cláudio da Silva; JUEN, Leandro; http://lattes.cnpq.br/1369357248133029; ESPOSITO, Maria Cristina; http://lattes.cnpq.br/2112497575917273
In Brazil is the most protected areas (PA) in the world, and mostly located in the Amazon. Currently, the Amazon biome has 73% of APs Brazil or 111 million hectares, 37% full and 63% use of sustainable use. Despite the large number, biodiversity does not have its assured conservation, since the population increases every year, as well as demands for goods and services that result in modifications of the ecosystems that are often outside or even inside the PAs. So our main objective is to study the Odonata adult structuring patterns in a protected area and its surroundings. For this, the thesis is divided into three chapters held in streams in the eastern Amazon. In the first chapter, our hypothesis was to test whether we would find a greater diversity of species of dragonflies in AP due to greater complexity of habitats. In the second chapter, we tested the hypothesis that there would be high beta diversity due to the high replacement species that is expected to find. In the third chapter, we tested the hypothesis that Odonata would be a weak to moderate substitute for other groups, because of the inherent characteristics of the group, as the great mobility. The study was carried out in 30 streams, 17 located within a protected and 13 in the surrounding area. The results of the first chapter were the largest diversity of Odonata found in the environment, compared with the AP. There were also differences in the species composition of the two environments, and differences between environmental variables between areas. Thus, the combination of the protected area and the surroundings, with a low level of disturbance retains a broad range of specialist species Odonata than just a single area. In the second chapter, there was a high beta diversity in Odonata both the AP and in the environment, possibly explained by the niche breadth combined with the spatial structure of the environment. In addition, we found that the specific requirement of the species happens associated with a natural variation in the environment, since there was large beta diversity and high turnover in both environments. Even with some environmental change, it was not big or strong enough to exclude all species and therefore they can survive in this environment. In the third chapter, we tested the correlation between adult Odonata with other aquatic groups such as fish, Ephemeroptera and Trichoptera combined (ET) and chironomids in streams of the Eastern Amazon. There was a correlation between species richness and consistency of Odonata of adults with fish and ET, though the strength of these correlations were moderate to low. So we discussed that adult Odonata are a moderate to weak group substitute for other aquatic organisms in streams of the eastern Amazon. Thus, we suggest caution in the use of a single taxon as a substitute for others and for conservation planning, the best would be to use a wide range of taxa, reflecting holistically aquatic biodiversity. Finally, both areas of protection becomes important to maintain the pool of own species of each environment, with our major challenge in the future is to find a way to identify the disturbance levels that would be acceptable to avoid over-exploitation of resources in these areas.
Acesso aberto (Open Access)
Revisão taxonômica e filogenia das espécies do gênero Nephochaetopteryx Townsend, 1934 (Diptera: Sarcophagidae)
(Universidade Federal do Pará, 2012-08-20) CARVALHO FILHO, Fernando da Silva; MELLO-PATIU, Cátia Antunes de; http://lattes.cnpq.br/6111953763967066; ESPOSITO, Maria Cristina; http://lattes.cnpq.br/2112497575917273
Nephochaetopteryx Townsend, 1934 is a genus of flies of the family Sarcophagidae, tribe Sarothromyiini, predominately Neotropical, with only one Nearctic species. This genus comprises small species (4–7.3 mm), mainly characterized by vein R1 fully setose dorsally, males with proclinate orbital bristles, and male mid femur with ctenidium. In addition, some species has wing fumose between apical part of vein R2+3 and C. The taxonomic review of the genus resulted in 34 valid species, being seven new species to science. Nephochaetopteryx calida does not belong to the genus, N. shannoni is junior synonymy of N. flavipalpis, and N. linharensis a junior synonymy of N. pallidifacies. A key to males of all described species (except for N. juquiana) is showed, as well as detailed illustrations of terminalia and sternite 5 of males. In addition, it is proposed a hypothesis of the phylogenetic relationships to the genus, based on 24 external morphological characters of adult males, mainly from terminalia. Were utilized 32 terminal taxa, being 29 of Nephochaetopteryx. The monophyly of genus is corroborated, and a new synapomorphy is proposed within the Sarothromyiini context: sternite 5 of male with median lobule. Based on the phylogenetic analyses, the genus is divided in four species group: angustifrons, biculcita, cyaneiventris and pallidiventris. The angustifrons group is the sister group of the clade that comprises the remaining species.

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