Mining, Vol. 6, Pages 12: Groundwater Baseline Values Using the 95–95 Upper Tolerance Limit in an Iron Ore Tailing Disposal Pit, Iron Quadrangle, Brumadinho, Brazil

Mining doi: 10.3390/mining6010012

Authors:
Raphael Vicq Ferreira Costa
Marianna Lopes Soares
Felipe de Souza Cologna
Nathalia Froiman Carmona
Ludmilla Lage
Fabianna Resende Vieira
Gabriela Maria Arantes Rodrigues
Vitor Brognaro Pimenta
Maurício José da Silva Soares
Teresa Valente

The rupture of the B-I dam at the Córrego do Feijão mine in Brumadinho, Minas Gerais, Brazil, on 25 January 2019, prompted the implementation of environmental remediation actions. Among these actions is the need for groundwater quality monitoring in the Feijão Pit (“Cava de Feijão”) area due to the disposal of tailings from dams B-I, B-IV, and B-IVA at this site. In order to assess potential impacts on groundwater, the determination of baseline values for elements of interest was proposed for ten monitoring wells installed in and around the pit, with monitoring results from 2019 to 2024, totaling 854 samples. Due to the lack of hydrochemistry data and local hydrogeological complexity of the existing aquifers within the context of the Iron Quadrangle (IQ), it was necessary to evaluate and determine individual baseline values for each monitoring well, assessing data variability and population distribution. For this purpose, the 95–95 Upper Tolerance Limit (UTL) method was applied to establish baseline values providing a robust statistical approach that encompasses 95% of observations with a 95% confidence interval as it is a widely used standard in statistics due to its practical balance between confidence and precision. This methodology proved effective and has potential for application in groundwater monitoring in areas that may present high compositional variability due to the chemical heterogeneity of the groundwater. The baseline values obtained for the main elements of interest, which are iron (Fe) and manganese (Mn), were consistent with findings from previous studies conducted in the hydrogeological units of the study area, also demonstrating that the adopted methodology was effective in identifying representative concentrations for the region.

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