Dissertações em Ciências Ambientais (Mestrado) - PPGCA/IG
URI Permanente para esta coleçãohttps://repositorio.ufpa.br/handle/2011/2855
O Mestrado Acadêmico em Ciências Ambientais teve início em 2005 e funciona no Programa de Pós-Graduação em Ciências Ambientais (PPGCA) do Instituto de Geociências (IG) da Universidade Federal do Pará (UFPA) em parceria com o Museu Paraense Emílio Goeldi (MPEG) e a Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA/Amazônia Oriental).
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Item Acesso aberto (Open Access) Análise e modelagem hidrometeorológica na Bacia do Rio Tocantins em Marabá-PA(Universidade Federal do Pará, 2008) SANTOS, Daniel Meninéa; SOUZA, Everaldo Barreiros de; http://lattes.cnpq.br/6257794694839685; ROCHA, Edson José Paulino da; http://lattes.cnpq.br/2313369423727020The objectives of the present work is to develop a statistical model to predict discharge or flow in Marabá-PA, as well assess the atmospheric dynamic structure associated with the extreme hydrological regime observed in the Tocantins river basin. The hydrological model based on multiple linear regressions uses time series derived from fluviometric and pluviometric stations which are obtained from ANA database. Validation tests of the statistical model with Nash coefficient above 0.9 and standard error of 1.5% and 5% during flood and drought periods, respectively, allow generating predictions of discharge with antecedence of 2 to 4 days (3 to 5 days) for the flood (drought) period. Through composites technique considering all years with record of above/very above discharge and below/very below discharge in Marabá, obtained from percentiles method, it was investigated the precipitation characteristics in basin scale and the dynamic aspects observed in each month (November to April). The composites of years with above/very above discharge showed that the rainfall on the basin was above normal in all months, and the large-scale patterns indicated a configuration associated with La Niña phenomenon over Pacific and cooling conditions over South Atlantic; intensification of both zonal/meridional ascending branch of the Walker/Hadley cell; intensification of the Bolivian High anomalously placed eastward and negative ROL anomalies associated with the joint occurrence of ZCAS and ZCIT. Conversely, the composites of years with below/very below discharge showed a predominance of precipitation below normal throughout basin, which was associated with the conditions of warming (El Niño) over Pacific, and also warm TSM anomalous over South Atlantic, cell of Walker and Hadley with weak upward movement, the positioning of the High Bolivia westward with positive ROL anomalies indicating inhibition of tropical convective activity. Additionally, a quantitative analysis of the socio-economic impacts in the main centers of Marabá revealed that approximately 10 thousand (5% of the population) people are affected by Tocantins river floods with costs in the flooding operations above R$ 500.000,00, considering the 2005 case.Item Acesso aberto (Open Access) Balanço de água em área de cultivo de soja no Leste da Amazônia(Universidade Federal do Pará, 2007) BISPO, Carlos José Capela; RIBEIRO, Aristides; http://lattes.cnpq.br/8652338930029697; ROCHA, Edson José Paulino da; http://lattes.cnpq.br/2313369423727020The expansion of the agricultural frontier, driven mainly by soy cultivation (Glycine max (L) Merrill), covers a large regional extent and is highly important to understanding the changing face of Amazonia. A field observation experiment was established to study water balance components of the soy agriculture ecosystem and analyze the impact of the water balance associated with forest conversion. The experiment also evaluated the crop’s need for water according to its development phase. For the water balance study, the BRS Candeia cultivar was used along with its respective phenological phases. The experiment measured soil water storage, precipitation, plant cover water interception, superficial drainage of soil water, evapotranspiration (Etc), and water content retained by the soy plant. Water infiltration in the soil was also measured. Interception and superficial drainage were 45,9% and 1% of the precipitation, respectively. The greatest evapotranspiration occurred during the flowering phase (R1-R2) with a gradual decline in values until crop harvest and a cycle average of 3,80mm.day-1, which was very similar to that found in forest. The period between the vegetative phase (V) and fruiting (R3-R4) was when the plant presents the greatest percentage of water, declining gradually during the grain-forming phase (R5). Overall, no water deficiency occured in the mean soil water balance. Precipitation was greater than the amount necessary to compensate for evapotranspiration and supply adequate water storage, creating a surplus of water in the soil.