Abstract
Mining contributes to the life quality of contemporary society, but can generate significant impacts, these being mitigated due to environmental controls adopted. This study aimed to characterize soil physical properties in high-altitude areas affected by bauxite mining, and to edaphic factors responses to restoration techniques used to recover mined areas in Poços de Caldas plateau, MG, Brazil. The experiment used 3 randomized block design involving within 2 treatments (before mining intervention and after environmental recovery), and 4 replicates (N=24). In each treatment, soil samples with deformed structures were determined: granulometry, water-dispersible clay content, flocculation index, particle density, stoniness level, water aggregate stability, and organic matter contend. Soil samples with preserved structures were used to determine soil density and the total volume of pores, macropores, and micropores. Homogenization of stoniness between soil layers as a result of soil mobilization was observed after the mined area recovery. Stoniness decreased in 0.10-0.20 m layer after recovery, but was similar in the 0-0.10 m layer in before and after samples. The recovery techniques restored organic matter levels to pre-mining levels. However, changes in soil, including an increase in soil flocculation degree and a decrease in water-dispersible clays, were still apparent post-recovery. Furthermore, mining operations caused structural changes to the superficial layer of soil, as demonstrated by an increase in soil density and a decrease in total porosity and macroporosity. Decreases in the water stability of aggregates were observed after mining operations.
Highlights
Mining is an important contributor to the improvement of living conditions in today’s society (CARVALHO, 2011)
The soil in the study area was classified according to Empresa Brasileira de Pesquisa Agropecuária-Embrapa (2006) as typical dystrophic Red Nitosol
Soil horizon inversion is an inherent negative environmental consequence of the bauxite mining process (BARROS et al, 2012), the results obtained in this study were in accordance with those expected since the textural composition of the soil does not vary very much during its exploitation (FERREIRA, 2010)
Summary
Mining is an important contributor to the improvement of living conditions in today’s society (CARVALHO, 2011). Mining activities may lead to significant environmental impacts (LONGO et al, 2011). Environmental impacts from mining activities can be mitigated by the use of appropriate environmental controls and ecological restoration techniques. The development of methods to assess soil quality is challenging (MELLONI et al, 2008) in part because the ascertainment of soil quality depends. Assessing soil quality is challenging because soil quality can vary in accordance with its original composition and it is strongly linked to anthropogenic activities (ARAÚJO; KER; NEVES, 2012). Corrêa and Bento (2010) recommend that scientists study the restoration of mined ecosystems to strengthen knowledge of edaphological systems and to develop effective techniques that can improve the physical quality of substrates
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