tailings impoundment
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2022 ◽  
Vol 302 ◽  
pp. 114030
Author(s):  
Eva Pakostova ◽  
Mason McAlary ◽  
Stephanie Marshall ◽  
Samantha McGarry ◽  
Carol J. Ptacek ◽  
...  

2021 ◽  
Author(s):  
Kelly J Whaley-Martin ◽  
Lin-Xing Chen ◽  
Tara Colebrander Nelson ◽  
Jay Gordon ◽  
Rose Kantor ◽  
...  

Acidification of freshwater in mining impacted areas is a major global environmental problem catalyzed by sulfur-oxidizing bacteria (SOB). To date, little is known about the active bacteria in mine tailings impoundments and their environmental niches. Here, biological sulfur oxidation was investigated over four years in a mine tailings impoundment, integrating sulfur geochemistry, genome-resolved metagenomics and metatranscriptomics. We demonstrated oxygen driven niche partitioning of SOB and their metabolic pathways that explain acidity generation and thiosulfate persistence. Four chemolithoautotrophic SOB, Halothiobacillus, Thiobacillus, Sulfuricurvum and Sediminibacterium comprised 37% to 73% of the analyzed communities. The impoundment waters alternated between the dominance of Halothiobacillus versus a Thiobacillus, Halothiobacillus, Sulfuricurvum and Sediminibacterium consortia. Halothiobacillus dominance was associated with lower pH values (~4.3), higher [H+]/[SO42-] and lower [S2O32-], collectively indicative of extensive sulfur oxidation. Halothiobacillus, which couple sulfur oxidation via the Sox pathway to aerobic respiration or NO2- reduction, were present throughout the depth profile, yet their expression of sox genes occurred only in upper highly oxygenated waters. Conversely, when consortia of Thiobacillus, Halothiobacillus, Sulfuricurvum and Sediminibacterium dominated, recycling/disproportionating reactions were more prevalent. Thiobacillus, which dominated deeper micro-oxic/anoxic waters, oxidized sulfur primarily through the rDSR pathway, coupled to NO3-/NO2- reduction, resulting in lower [H+]/[SO42-] and higher [S2O32-] relative to upper waters. These field results mirror the Sox/rDSR-geochemical patterns of experimental SOB enrichments and reveal opportunities for biological treatments of recalcitrant reduced sulfur compounds, as well as gene-based monitoring and in situ RNA detection to predict the onset of problematic geochemistry.


2021 ◽  
pp. 106262
Author(s):  
Nahyan M. Rana ◽  
Negar Ghahramani ◽  
Stephen G. Evans ◽  
Scott McDougall ◽  
Andy Small ◽  
...  

Author(s):  
Nicolò Barago ◽  
Stefano Covelli ◽  
Mara Mauri ◽  
Sara Oberti di Valnera ◽  
Emanuele Forte

When mines are decommissioned, tailings piles can act as sources of contamination for decades or even centuries. Tailings, which usually contain high concentrations of metals and trace elements, can be reprocessed for a secondary recovery of valuable elements with an innovative approach to a circular economy. This study offers new results for tailings ponds characterisation and chemical content prediction based on an integrated geophysical-geochemical approach. The study of the Raibl Pb-Zn tailings impoundment was done using bulk chemical analysis on borehole samples, Electrical Resistivity Tomography surveys, and Ground Penetrating Radar measurements. We found valuable and statistically significant correlations between the electrical resistivity of the mining impoundments and the metal distribution, thus providing a practical opportunity to characterise large volumes of metal-bearing tailings. In particular, these results can be useful to aid in the development of environmental monitoring programs for remediation purposes or to implement economic secondary recovery plans.


Author(s):  
Hai-Yan Gao ◽  
Ze-Min Xu ◽  
Zhe Ren ◽  
Kun Wang ◽  
Kui Yang ◽  
...  

Author(s):  
Julio César Arranz-González ◽  
Virginia Rodríguez-Gómez ◽  
Francisco Javier Fernández-Naranjo ◽  
Lucas Vadillo-Fernández

Author(s):  
Stefan Broda ◽  
Marie-Pier Ethier ◽  
Daniela Blessent ◽  
Michel Aubertin ◽  
Abdelkabir Maqsoud ◽  
...  

Tailings with sulphide minerals exposed to oxygen and water can oxidize and produce acid mine drainage (AMD). This study evaluated the impact of natural conditions and of a thin cover deposition on the water table level, for selecting the reclamation technique to control AMD on the elevated portion of an abandoned tailings impoundment. The reactive tailings were partly covered with alkaline tailings transported as a pulp from a nearby mine. A 3D numerical variably-saturated groundwater flow model of the tailings impoundment and its surrounding area was built. The simulation results reproduced well the field observations before, during and after the deposition of a thin layer of tailings. The calibrated model was then used to forecast the evolution of the water table position for the next 100 years, under various site conditions, including a period of 5 years with dry summers. The results show that the water table levels are in average several meters below the interface between the reactive tailings and the cover, thus failing to meet the target criterion to control the production of AMD determined from previous column tests. The results are analyzed and discussed in terms of the site configuration and atmospheric recharge.


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