Behavior of heavy metals in sulfide mine tailings and bottom sediment (Salair, Kemerovo region, Russia)

Bogush, Anna; Лазарева, Е. В.

doi:10.1007/s12665-011-0947-6

Cited by 24 publications

(14 citation statements)

References 14 publications

(13 reference statements)

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“…The NH4-acetate extractant is used to determine the exchangeable elements at pH 4 to 5, and calcite is also dissolved by this extractant (Dold and Fontboté 2001). The exchangeable and carbonate fractions are separated by using the same extractant (NH4-acetate) at pH 7 and 5, respectively (Bogush and Lazareva 2011). The exchangeable fractions of Fe was negligible in all of the tailings samples while those of Zn and Cu were <0.3…”

Section: Batch Leaching Experimentsmentioning

confidence: 99%

“…The distribution and chemical species of metals in a tailings dam differ, depending on the ore minerals, tailings properties, deposit time, and local climate (Duanmu et al 2011). Several studies have shown changes in AMD generation rates (Bouzahzah et al 2014;Greenhill 2000;Hakkou et al 2008;Lengke et al 2010;Modabberi et al 2013;Morin and Hutt 1998;Schafer 2000) and the leaching behaviors of contaminants from mine sites over time (Bogush and Lazareva 2011;Lee et al 2005;Wang et al 2017;Zhang et al 2016). However, the factors and processes controlling AMD generation and distribution of potentially toxic elements in tailings dams are not fully understood.…”

Section: Introductionmentioning

confidence: 99%

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Distribution of Zinc, Copper, and Iron in the Tailings Dam of an Abandoned Mine in Shimokawa, Hokkaido, Japan

et al. 2018

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This paper addresses the mechanism of acid mine drainage generation in tailings from an abandoned mine site and predicts the evolution of zinc (Zn), copper (Cu), and iron (Fe) concentrations. Batch leaching experiments and sequential extractions were conducted to investigate the leaching behavior of these contaminants from the tailings and to understand their solid-phase partitioning. Acid-base accounting and principal component analysis (PCA) were used to confirm factors affecting Zn, Cu, and Fe leaching and acid formation based on the leaching experiments. There were strong positive correlations between Zn, Fe, or EC and SO4 2-, indicating that pyrite and sphalerite are the major minerals releasing Zn and Fe. This aligns with the PCA results. In the upper part of the tailings, the water-soluble and sulfide fractions of Zn, Cu, and Fe were almost flushed out, whereas they remained high in the deeper tailings. This implies that the tailings will likely continue to release these contaminants (Zn > Cu > Fe) for a long time unless remedial measures are taken.

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Section: Batch Leaching Experimentsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Distribution of Zinc, Copper, and Iron in the Tailings Dam of an Abandoned Mine in Shimokawa, Hokkaido, Japan

et al. 2018

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“…The relationship between metals in tailings and the surrounding environment and properties of tailings/soil/water have also been widely explored [17,18]. The chemical speciation of metals is also a good indicator for assessing their potential mobility, availability, and toxicity [19,20].…”

Section: Introductionmentioning

confidence: 99%

Speciation, Fate and Transport, and Ecological Risks of Cu, Pb, and Zn in Tailings from Huogeqi Copper Mine, Inner Mongolia, China

Chen

Lü

et al. 2018

Journal of Chemistry

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Tailings collected from the tailing reservoir at Huogeqi Copper Mine, located in Inner Mongolia, China, were used in a leachate study to evaluate the acid potential, neutralization potential, and possibility for producing acid mine drainage (AMD) from the site. The speciation of Cu, Pb, and Zn contained in the tailings was also determined during the leachate study to further access the potential migration abilities of these metals. The results showed that the tailings did not produce significant AMD as the pH of the leachate ranged from 7 to 9 and decreased with time. The Cu, Pb, and Zn concentrations were high, ranging from 439.1 to 4527 mg/kg in the tailings and from 0.162 to 7.964 mg/L in the leachate, respectively. Concentrations of metals in the leachate and tailings were positively correlated. Over 60% of the Cu in the tailing samples existed in an oxidizable form. Most of the Pb also existed in its oxidized form, as did the silicate and Zn. Metals usually have higher mobility in their exchangeable and oxidizable forms and as such represent a higher potential risk to the environment. Results of risk assessment code also revealed that metals in tailings exerted medium to high risks to the environment.

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“…The most commonly used technique has been ICP with different detectors: MS [1,2,[6][7][8], AES [3,9,10], and OES [11]. Moreover, XRF techniques with different modification were also used, as these methods can be applied directly with solid samples [5,[12][13][14][15]. One publication described the INAA method for determining elements in bottom sediment [16], and five used the AAS method [4,14,[17][18][19].…”

mentioning

confidence: 99%

“…Moreover, XRF techniques with different modification were also used, as these methods can be applied directly with solid samples [5,[12][13][14][15]. One publication described the INAA method for determining elements in bottom sediment [16], and five used the AAS method [4,14,[17][18][19]. To our knowledge, there have been only two publications in recent years that have applied electrochemical methods for element determination in bottom sediments [20,21].…”

mentioning

confidence: 99%

Trace Metal Determinations Using Voltammetric (DPV-HMDE) and Atomic Absorption Spectrometry (F-AAS and ET-AAS) in Bottom Sediment, Cod, Herring, and Cormorant Tissue Samples

Baranowska¹

2015

Pol. J. Environ. Stud.

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Two years ago a consortium consisting of several Polish universities (including the Silesian University of Technology and Institute of Nuclear Chemistry and Technology) were established. The goal of this consortium was to implement a project called MODAS (production and attestation of new types of reference materials crucial for achieving European accreditation for Polish industrial laboratories). This project has sought the development and validation of new referPol. J. Environ. Stud. Vol. 24, No. 5 (2015), 1911-1917 AbstractWe developed a voltammetric method using hanging mercury drop electrode (HMDE) for the determination of copper, zinc, lead, and cadmium, and an atomic absorption spectrometry method with flame and electrothermical atomisation for the determination of cobalt, copper, cadmium, lead, zinc, ferrum, manganese, and nickel. These methods were applied for the determination of elements in bottom sediment and animal tissue samples -candidates for certificate reference materials. The mineralisation procedure using a closed microwave-assisted system, which allowed for total decomposition of samples, was applied. For accurate testing of developed methods for elemental determination, Buffalo River sediment (NIST) and fish muscle (ERM) certified reference materials were used. Limits of detection (LOD) and limits of quantification (LOQ) varied depending on technique used. For F-AAS, LOD values were between 2.2-12 mg·kg , for F-AAS, ET-AAS, and HMDE, respectively. Linearity ranges also varied for each technique: 0.005-1.0 mg·kg -1 for HMDE, 0.35-50 mg·kg -1 for ET-AAS, and 6.5-500 mg·kg -1 for F-AAS technique. Homogeneity within and between bottles was calculated for each element. Variances did not differ in a statistically significant way, which is why materials can be considered homogenous.

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Behavior of heavy metals in sulfide mine tailings and bottom sediment (Salair, Kemerovo region, Russia)

Cited by 24 publications

References 14 publications

Distribution of Zinc, Copper, and Iron in the Tailings Dam of an Abandoned Mine in Shimokawa, Hokkaido, Japan

Distribution of Zinc, Copper, and Iron in the Tailings Dam of an Abandoned Mine in Shimokawa, Hokkaido, Japan

Speciation, Fate and Transport, and Ecological Risks of Cu, Pb, and Zn in Tailings from Huogeqi Copper Mine, Inner Mongolia, China

Trace Metal Determinations Using Voltammetric (DPV-HMDE) and Atomic Absorption Spectrometry (F-AAS and ET-AAS) in Bottom Sediment, Cod, Herring, and Cormorant Tissue Samples

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