Geochemical Characteristics of Soils to the Impact of Diamond Mining in Siberia (Russia)

Gololobova, Anna; Legostaeva, Yana; Popov, Vladimir; Makarov, Victor; Shadrinova, Olesya

doi:10.3390/min12121518

Cited by 3 publications

(3 citation statements)

References 54 publications

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“…Therefore, high concentrations of these elements are explained by the second entry into the surface layer of soil in the form of re-suspended dust of soil material as a result of aerogenic spread from drilling and blasting, wind erosion of dumps, etc., as well as the influence of anthropogenic and industrial activities on the territory of the industrial site of the Udachny MPD. The studies conducted by Rodriguez Martín et al [65] and Gololobova [66] also revealed a high correlation between these elements. The Cd-Zn association suggests that these elements may come from similar sources.…”

Section: Descriptive Statistics Of Physicochemical Properties and Pte...mentioning

confidence: 79%

An Assessment of the Impact of the Mining Industry on Soil and Plant Contamination by Potentially Toxic Elements in Boreal Forests

Gololobova

Legostaeva

2023

Forests

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This study was conducted in the territory of the industrial site of the Udachny Mining and Processing Division (Yakutia, northeast Russia). The objects of study were permafrost soils and two species of shrubs (Betula middendorffii T. and Duschekia fruticose R.). Soil and plant samples were analyzed using atomic absorption spectrometry for the presence of PTEs (Pb, Ni, Mn, Cd, Co, Cr, Zn, Cu, and As). The bioaccumulation factor (BAF), frequency of occurrence (Hi), pollution index (PI), and pollution load index (PLI) were calculated. The PI and PLI are calculated for both soil and two plant species for the first time in this study. The results showed that the soils have a high Ni, Cr, Co, As, and Mn content. It has been established that high soil pollution naturally leads to an increase in the concentration of elements in the leaves of shrubs. The soils and vegetation are dominated by elements associated with trap magmatism—Cr, Co, Cu, and dolerite dikes—Mn and Zn. For Betula middendorffii, the PLI was classified as unpolluted to moderately polluted, and Duschekia fruticosa. was classified as unpolluted. The high level of contamination is typical for areas located near industrial sites, such as waste dumps, kimberlite pipes, tailings ponds, and roads. The BAF results confirmed that the leaves of Betula middendorffii are able to accumulate more PTEs and have the highest level of resistance to PTE contamination in mining environments. This analysis showed that the consistent application of the PI, PLI, and BAF indices is very efficient in the ecological and biogeochemical assessment of the situation in industrial development areas.

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Section: Descriptive Statistics Of Physicochemical Properties and Pte...mentioning

confidence: 79%

An Assessment of the Impact of the Mining Industry on Soil and Plant Contamination by Potentially Toxic Elements in Boreal Forests

Gololobova

Legostaeva

2023

Forests

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“…It is possible that an underground landfill and a tailings dump could indirectly affect the state of the vegetation of the territory and contribute to the formation of oxalate, since highly mineralized waters possess a calcium chloride composition; their release could trigger excessive accumulation of calcium in lichens. Results of the study of the formation conditions of calcium oxalates on the territory of the Daldyn kimberlite field revealed that calcium oxalates synthesize lichens, therefore demonstrating a protective reaction due to changes in the micro-and macronutrient composition of natural soils [61]. Lichens change the shape of the growth of thalli and accumulation of a high number of oxalates, which also according to [11] occurs during granulation of the thallus; in this case, the podecia covered with granules show a higher capacity for the accumulation of heavy metals.…”

Section: Discussionmentioning

confidence: 99%

Calcium Oxalates in Soils within Disturbed Landscapes and Rock on the Territory of Yakutia (Russia), Formation Conditions in a Sharply Continental Cryoarid Climate

Васильева

Legostaeva

2023

Minerals

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The formation of oxalates in soils and rocks under conditions of cryoarid climate, permafrost and taiga vegetation was studied. Whewellite and weddellite were found in four areas associated with the mining industry: on the kimberlite deposit of the Daldyn territory, in the lower reaches of the Markha River of the Central Yakut Plain, and on the coastal outcrop of the Allah-Yun Sellah-Khotun ore cluster. Whewellite was found in the upper organic horizon of Skeletic Cryosol (Thixotropic) (sample 151) and as a film on the surface of plant remains of Humic Fluvisols (sample 1663). Weddellite was found as an extensive encrustation on the surface of the soil and vegetation cover of Stagnic Cryosols Reductaquic (sample 984) and on a siltstone outcrop (sample KM-6-21). Calcium oxalates were identified by X-ray phase analysis, photographs of the samples were taken on a polarizing microscope, and the crystal morphology was studied on a scanning electron microscope. To determine the chemical composition of soils and rocks, the classical wet-chemical method was used; the physical properties of the studied samples were studied using a pH meter, the photoelectric colorimetric method, and a synchrotron thermal analysis device. The source of calcium for the formation of salts is the parent layers of the studied soils, represented by carbonate and carbonate clastic rocks, which cause neutral and slightly alkaline environments. High humidity, which is provided by the seasonal thawing of the permafrost, has a key role in the formation of the studied oxalates in Yakutia with a sharply continental cryoarid climate. Based on the studies, it was found that the first two samples are the products of lichen activity, and the third and fourth are at the stage of initial soil formation by micromycetes. In addition, the formation of these oxalates, in our opinion, is the result of the protective function of vegetation, in the first two cases, with a sharp increase in the load on lichens under technogenic impact, and in the second and third cases, when favorable conditions arise for initial soil formation, but under conditions of toxic content of heavy metals and arsenic.

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“…With rapid industrialization, various anthropogenic activities (e.g., treated and recycled minerals, product manufacturing, burning fuels (particularly coal) and developing new oil fields, modern agricultural practices, and waste disposals contribute to the release of heavy metals [ 2 ]. Once metals (such as Hg, Cd and Pb) enter into the atmosphere, they can be transported over long distances by air currents, leading to the dramatic increase of heavy metal content in remote areas [ 3 , 4 , 5 , 6 ]. In addition, through drainage, atmospheric bulk deposition, and soil erosion, heavy metals are prone to enter into water bodies and disturb the aquatic ecosystem [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

Recent Progress on Ex Situ Remediation Technology and Resource Utilization for Heavy Metal Contaminated Sediment

2023

Toxics

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Sediment is an important part of aquatic systems, which plays a vital role in transporting and storing metals. Due to its abundance, persistence, and environmental toxicity, heavy metal pollution has always been one of the hot spots in the world. In this article, the state-of-art ex situ remediation technology for metal-contaminated sediments is elaborated, including sediment washing, electrokinetic remediation (EKR), chemical extraction, biological treatment, as well as encapsulating pollutants by adding some stabilized/solidified materials. Furthermore, the progress of sustainable resource utilization methods, such as ecosystem restoration, construction materials (e.g., materials fill materials, partition blocks, and paving blocks), and agriculture use are reviewed in detail. Finally, the pros and cons of each technique are summarized. This information will provide the scientific basis for selecting the appropriate remediation technology in a particular scenario.

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Geochemical Characteristics of Soils to the Impact of Diamond Mining in Siberia (Russia)

Cited by 3 publications

References 54 publications

An Assessment of the Impact of the Mining Industry on Soil and Plant Contamination by Potentially Toxic Elements in Boreal Forests

An Assessment of the Impact of the Mining Industry on Soil and Plant Contamination by Potentially Toxic Elements in Boreal Forests

Calcium Oxalates in Soils within Disturbed Landscapes and Rock on the Territory of Yakutia (Russia), Formation Conditions in a Sharply Continental Cryoarid Climate

Recent Progress on Ex Situ Remediation Technology and Resource Utilization for Heavy Metal Contaminated Sediment

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