Engenharia Agrícola e Ambiental (Sede)
URI permanente desta comunidadehttps://arandu.ufrpe.br/handle/123456789/13
Siglas das Coleções:
APP - Artigo Publicado em Periódico
TAE - Trabalho Apresentado em Evento
TCC - Trabalho de Conclusão de Curso
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2 resultados
Resultados da Pesquisa
Item Dinâmica espaço-temporal da cobertura vegetal, das queimadas e da expansão da bovinocultura na bacia leiteira do estado de Pernambuco usando Landsat-8 e MapBiomas(2022-12-12) Melo, Maria Vitória Neves de; Almeida, Gledson Luiz Pontes de; http://lattes.cnpq.br/2328849810614673; http://lattes.cnpq.br/8193771315370090The semi-arid is responsible for about 58% of the effective herd in the Brazilian Northeast region (NEB), however, there are local and meteorological factors that limit the semi-arid region. The objective was to evaluate the space-time dynamics of vegetation cover through the Soil-Adjusted Vegetation Index (SAVI) and Pasture Plant Coefficient (CVP) via Landsat-8/OLI images processed in the cloud on Google Earth Engine (GEE), measuring the scenarios of burned areas and characterizing the expansion of cattle farming in the dairy basin in the state of Pernambuco through land use and cover (LULC) and its impacts on the Caatinga Biome. The study region comprises the 23 municipalities that produce the most milk in the state, between 2016 and 2021, divided into dry and rainy seasons. The Vegetation Indexes were processed in the GEE and the spatialization of the rain was made through the Climate Hazards Group InfraRed Precipitation with Station data (CRHIRPS) and both data were submitted to descriptive statistics. LULC thematic maps and burned areas were processed in QGIS software. Thus, it was observed that in the dry and rainy period from 2016 to 2020, there was average precipitation of 77.98 mm and 331.19 mm, respectively. In the rainy season of 2016, less precipitation was observed when compared to the other years of the study, as it was the period that was influenced by the great droughts that preceded the year in question. As for the vegetation indices in the dry period, the SAVI presented lower spectral responses throughout the study period, as a result of low precipitation in the region and the rainy season with high biomass activity with values above 0.78. The SAVI and CVP showed medium to high variability. The burned areas showed that anthropic activities in some sectors of the basin caused the change in the LULC, resulting in degradation processes, even in regions with greater precipitation. Therefore, it is concluded that the analysis of the products CHIRPS, SAVI, CVP associated with the descriptive statistics and the maps of the LULC and burned area, was efficient for the space-time characterization of the expansion of cattle farming in the dairy basin of the state of Pernambuco throughout the study period.Item Análise de degradação ambiental na bacia do Rio Moxotó através de imagens de satélite(2023-04-19) Aires, Giovanna da Cunha; Nascimento, Cristina Rodrigues; http://lattes.cnpq.br/9289129949520610; http://lattes.cnpq.br/1000446236815556The disorderly exploitation of natural resources. the inappropriate use of soil and irrational deforestation has been causing numerous environmental problems, which leads to environmental degradation, with that remote sensing has been gaining space through environmental monitoring in space and time with efficiency and at low cost, allowing planning and decision-making for sustainable use of natural resources. In view of this, the objective was to analyze, through a time series of LANDSAT satellite images, spaced at intervals of five years, the environmental degradation suffered in the Moxot6 River Basin. The climate analysis was based on a monthly series of twenty-one years of data (2000-2021), using the Quantile technique. The satellite images analyzed were from MapBiomas and processed in QGIS software. The change detection analysis was also carried out through the difference image, resulting from techniques based on the observation of the pixels and the change that occurred with them over time. With this, it was observed that the rainy season in the Moxoto River Basin lasts four months, from January to April, representing about 72% of the annual rainfall and presenting an average of total annual precipitation of 482.65mm. Through the analysis of land use and cover, it was possible to verify the growth of agriculture in the basin, through the classes of temporary crops, with a growth of 97.13% between the years 2005 and 2021, and the classes of perennial crops and areas of pasture, with growth between 2000 and 2021 of 97.64% and 5.35% respectively. The savanna vegetation is the most extensive in the basin, however the areas of forest formation are a minority in the basin, thus having a low presence of dense vegetation. Regarding the degradation of the Moxot6 River Basin, there was a decrease of 98.74% from the year 2000 to 2019, with the municipalities most affected by the degradation being Ibimirim-PE, Inaji-PE, Custodia-PE, Math Grande-AL, Piraconha- AL and Delmiro Gouveia-AL. The regeneration classes showed an increase of 32.63% from 2000 to 2019. Through the difference image analysis, it was also possible to verify permanence of recovered areas, however the transition from degraded to recovered areas was lower than expected. With that, remote sensing through LANDSAT satellite images, enabled the classification and analysis of land use classes, from the years 2000, 2005, 2010, 2015, 2020 and 2021, as well as the analysis of degraded and recovered areas from the years 2000, 2005, 2010, 2015 and 2019 satisfactorily so that it is possible to carry out adequate monitoring of the transformations undergone by the Moxoto River basin. With the studies, the need for environmental recovery projects in the basin was verified, in addition to constant monitoring to assist in public policies for this region.