Navegando por Autor "CAMARGO, Paloma Maria Pinto"

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Acesso aberto (Open Access)
Aspectos geoquímicos de gleissolos em pântanos salinos da região Bragantina, Pará
(Universidade Federal do Pará, 2011-06-08) CAMARGO, Paloma Maria Pinto; CORRÊA, José Augusto Martins; http://lattes.cnpq.br/6527800269860568
The knowledge about the nature of depositional processes in the tidal flats, where the salt marsh are included, is very important to understand the tropical coastal ecosystem. Evaporitic minerals, like in Sabkhas, are observed in Bragança salt marsh during the dry season. Halite is deposited on the surface of the soil and gypsum and pyrite precipitate in the subsurface via capillary action out of brines brought up from the water table. The pedogenic processes in the salt marsh where dominate by chemical reactions like halomorphism, hydromorphism, sufate reducing. The aim of this study is characterize the soil of Bragança salt marsh using the textural characteristics, mineralogical and geochemical composition of sediments. The sampling was performed in two transects located in both sides of the PA-458. Each transects have 3 profiles that arise 1 meter depth. The samples were collected by a dutch auger for augering shallow depths (20 cm). The granulometry of sediments was obtained with a laser granulometer and the mineralogical composition was performed by X-ray diffraction techniques. The sand grains were observed using a petrographic microscope with digital image capture. The neoformed minerals and silt+clay grains size were described using a scanning electron microscopy (SEM). In the soil were also studied the pH, electric conductivity, salinity, organic matter content, major, minor and trace elements using classical chemical methods, X-ray fluorescence and atomic absorption spectrometry. Gleysol present in salt marsh show silty-clayey grain size, massive texture, slightly sticky to sticky, very plastic to slightly plastic and friable to compact. Mineralogical it was composed of quartz, kaolinite, illite, smectite, pyrite, jarosite, polyhalite and halite. The pH values ranged from high acidity to acid and the lowest value was found in the depth of 70-90 cm (pH = 3.85), profile P4. Some profiles shown in the Zone 2, where pH is much acid, yellow to orange mottles which corresponds to pyrite oxidation. Based on composition of the adsorption complex of studied soil profiles, the profiles showed high CEC due to the large amount of organic matter and clay minerals. The dominance of Na+ and Mg2+, followed by Ca2+ and K+ assigning to soil eutrophic character. Only the profile P4, B transect, showed dystrophic character. All profiles shown high sodium concentration, characterizing the salt marsh soil as "Solonchak" and therefore may be classified as Salic Sodic Gleysol. The salt marsh soil contains high values of SiO2, Al2O3 and Fe2O3, which reflect its major minerals. Illite, smectite, polyhalite, halite and pyrite are characteristics of salt marsh environment, where the sedimentation occur under the influence of sea water which contributes to Na+, K+, Ca2+, and Mg2+. The presence of jarosite indicates the oxidation of sulfides. The high amount of Na2O reflect the strong evaporation rates under which the salt marsh environment is submitted, and support the neoformation of halite at different depths along a profile. The results and the field observations suggests that the new mineral phases are essentially the result of high evaporation rate, organic matter content, primary mineral phases.
Acesso aberto (Open Access)
Evolução dos pântanos da região central da península de Bragança-PA de acordo com as mudanças do nível relativo do mar durante o holoceno
(Universidade Federal do Pará, 2016-12-07) CAMARGO, Paloma Maria Pinto; CORRÊA, José Augusto Martins; http://lattes.cnpq.br/6527800269860568
This work integrates data from geomorphology, sedimentary features, pollen, diatom, isotopes, mineralogy, chemical analysis and C-14 datings obtained of sediment cores sampled from Bragança Península, Pará littoral. The pollen data indicate that central and topographically higher area of Bragança Peninsula was an area dominated by mangroves, with wide expansion of Avicennia trees, marine diatom, an increased trend of sedimentary organic matter sourced from estuarine algae, and a mineralogical composition mainly formed by pyrite and hematite, typical of mangrove anoxic sediments between > 6300 and 4900 cal yr BP. Between 4900 and 4300 cal yr BP occurrs a without pollen zone, but along this interval takes place marine diatom, an increase of sedimentary organic matter sourced from marine algae and the absence of minerals formed by Fe and S. In the late Holocene (<4300 cal yr BP), the study site was recolonised mainly by herbs with Avicennia trees restricted to border of the herbaceous plain, presence of freshwater diatom remains and a significant increase trend in contribution of sedimentary organic matter of terrestrial origin (C4 plants). Precipitated minerals from enviroments under intense evaporation form the mineralogical composition. In recent decades, there is a mangrove migration to elevated surfaces occupied by herbs (C4 and C3 terrestrial plants), and an increase of sedimentary organic matter sourced from estuarine algae. An upward increase in the Sr concentration occurs along the last 10 cm. These data suggest a mangrove and salt marshes dynamic mainly controlled by the relative sea level changes. Probably, postglacial sea level rise contributed to the establishment and expansion of mangroves in the Bragança Peninsula with great impact on the expansion of Avicennia trees and marine diatoms, an increase of sedimentary organic matter sourced from estuarine algae. This environment favors the mineral precipitation for instance of pyrite. Between 4900 nd 4300 cal yrs BP, the continuous relative sea level rise causes the increase of marine/estuarine diatoms and the contribution of sedimentary organic matter sourced from marine algae. However, it caused the drowning of mangrove and associated vegetation, and consequently its disappearance from the study area, as well as the environmental conditions for sulfides precipitation. After 4300 cal yrs BP, the increase of sedimentary organic matter sourced from C4 terrestrial plants and freshwater diatoms suggest a relative sea level fall. The mineralogical composition suggests an arid environment, such as a sabkha. This process caused the recolonization of herbs (mainly C4 plants) in the topographically highest area of studied peninsula and Avicennia trees surrounding this herbaceous plain. Considering the last decades, the Avicennia trees migration to elevated herbaceous fields, the increase trend of organic matter sourced from estuarine algae and the increase in concentration of Sr during the last 10 cm suggest a modern relative sea level rise.