Abstract
The objective of this study was to evaluate the space-time dynamics of the soil use and occupation of the Rio Roncador river basin between 1985 and 2010. The scenes were classified by two methods (partially unsupervised - K-Means and supervised - Maximum likelihood), the Thematic Mapper sensor products on the LANDSAT 5 orbital platform were used for both images of a 25-year time series (1985 to 2000). In order to measure the accuracy of the field the computer application Google Earth was used, in which nine classes (urban area, agricultural area, pasture, exposed soil, native forest, secondary vegetation, mangrove, altitude field and water) were collected. A multiple linear regression was performed, correlating the Normalized Difference Vegetation Index - mean NDVI (dependent variable) with the independent climatic variables (global solar radiation - MJm-2day-1, average air temperature - °C, relative humidity -%, evapotranspiration - mm d-1, and rain - mm). According to the general classification by Kappa parameter of the images for 2005 and 2010, they were identified as very good (68% and 74%). These results confirm that the Roncador River Basin is undergoing transformation in its landscape, with an average reduction of -49% in native vegetation areas due to the increase in urban areas (25%) and agriculture (31%). The statistical analysis showed that rainfall and air temperature were the only variables that presented significant sigma (0.04) and (0.02). The obtained coefficient of determination indicated that 47% of the variations of the "vegetation index" are explained by the environmental variables.
Highlights
The human perception has been changing the conservation of natural resources, which may jeopardize the future generations
The change in the vegetation cover of the Atlantic Forest is a result of great impact activities on it, such as removal of permanent preservation areas in the vicinity of the basins (COUTINHO et al, 2013) and increase of urban areas without planning
The generation of negative impacts due to inappropriate management of land use and vegetation cover in basins can lead to climate change, which is directly correlated with environmental disasters (COUTINHO et al, 2013)
Summary
The human perception has been changing the conservation of natural resources, which may jeopardize the future generations. The Atlantic Forest has been subjected to numerous changes in its ecosystem, being the land use and occupation the main causes of these transformations. The change in the vegetation cover of the Atlantic Forest is a result of great impact activities on it, such as removal of permanent preservation areas in the vicinity of the basins (COUTINHO et al, 2013) and increase of urban areas without planning. The generation of negative impacts due to inappropriate management of land use and vegetation cover in basins can lead to climate change, which is directly correlated with environmental disasters (COUTINHO et al, 2013). The study of the vegetation allows to generate information on the nature of the territory, serving as a tool for the territorial planning of basins to mitigate the environmental
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