乌克兰地下水锰分布的生态地球化学特征

IF 0.5 Q4 MINERALOGY
T. Kоshliakova
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Manganese and ferrum concentrations in the samples of the studied groundwater were determined using the high-precision method of mass spectrometry with inductively coupled plasma (ICP-MS). As a result of the statistical processing of the studied samples, it was established that the median manganese content for most of the examined territories does not exceed the maximum permissible concentration. The exception is the underground water of the Pidhirtsi village (Kyiv region), where the concentration of the element exceeds the standard by almost 4 times. A comparative analysis to determine the relationship between the manganese and ferrum concentrations and the depth of water intake structures did not show any regularities characteristic of natural waters undisturbed by technogenic activity. It was revealed that the largest deviations from the background values for manganese are typical for the Dnipropetrovsk region, and for ferrum — for the Kyiv city. 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引用次数: 0

摘要

介绍了水文地球化学研究的结果,确定了乌克兰有条件清洁和技术污染地区的饮用地下水中锰的分布特征,并评估了所调查地下水的无机配体特征对Mn2+行为的影响,这取决于水环境的初始条件。基辅市,以及日托米尔,文尼察和里夫纳地区被选为有条件的清洁领土;基辅和第聂伯罗彼得罗夫斯克地区——技术污染地区。根据国内外文献资料,概述了锰的一系列医学、生物学和毒理学特性,阐明了锰元素在天然水溶液和地下水中流行的主要特征。采用电感耦合等离子体质谱法(ICP-MS)测定了地下水样品中锰和铁的浓度。对所研究的样品进行统计处理的结果是,大多数检查地区的锰含量中位数不超过最大允许浓度。唯一的例外是Pidhirtsi村(基辅地区)的地下水,那里的元素浓度超过标准近4倍。通过对比分析确定锰和铁浓度与取水结构深度之间的关系,没有显示出未受技术活动干扰的天然水体的规律性特征。结果显示,锰与背景值偏差最大的是第聂伯罗彼得罗夫斯克地区,而铁与背景值偏差最大的是基辅市。研究样品中锰和铁的浓度之间没有统计学上的显著关系,这表明所研究的地下水中元素浓度过程的地球化学性质不同。使用专业软件工具Hydra和Medusa,根据研究样品中水环境的pH值计算了锰的发现形式。在乌克兰的条件清洁和技术污染地区获得的元素可溶性形式的比例使得有可能确定,在条件清洁地区的水中,锰主要以自由Mn2+离子的形式迁移,并且以MnSO4的形式迁移的程度要小得多(11%)。另一方面,在技术污染区域内,无机配体SO42 -起着关键作用,可溶性化合物MnSO4和Mn2+的比例分别为56%和44%。所得结果可作为在乌克兰境内进行生物地球化学分区时选择标准的依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ECOLOGICAL AND GEOCHEMICAL FEATURES OF MANGANESE DISTRIBUTION IN GROUNDWATERS OF UKRAINE
The results of hydrogeochemical studies on the identification of the features of manganese distribution in drinking groundwater of conditionally clean and technologically polluted territories of Ukraine are presented, as well as the assessment of the influence of inorganic ligands characteristic of the investigated groundwater on the behavior of Mn2+ depending on the initial conditions of the water environment. The Kyiv city, as well as Zhytomyr, Vinnytsia, and Rivne regions were selected as conditionally clean territories; Kyiv and Dnipropetrovsk regions — as technologically polluted territories. According to domestic and foreign literary data, the range of medical, biological, and toxicological properties of manganese is outlined, and the key features of the element prevalence in natural aqueous solutions and underground waters are clarified. Manganese and ferrum concentrations in the samples of the studied groundwater were determined using the high-precision method of mass spectrometry with inductively coupled plasma (ICP-MS). As a result of the statistical processing of the studied samples, it was established that the median manganese content for most of the examined territories does not exceed the maximum permissible concentration. The exception is the underground water of the Pidhirtsi village (Kyiv region), where the concentration of the element exceeds the standard by almost 4 times. A comparative analysis to determine the relationship between the manganese and ferrum concentrations and the depth of water intake structures did not show any regularities characteristic of natural waters undisturbed by technogenic activity. It was revealed that the largest deviations from the background values for manganese are typical for the Dnipropetrovsk region, and for ferrum — for the Kyiv city. Statistically significant relationships between the concentrations of manganese and ferrum in the examined samples were not found, which indicates the different geochemical nature of the elements concentration processes in the studied groundwater. Using the specialized software tools Hydra and Medusa, the finding forms of manganese depending on the pH of the water environment in studied samples were calculated. The obtained ratios of the element soluble forms for conditionally clean and technologically polluted territories of Ukraine made it possible to establish that in the water of conditionally clean territories, manganese migrates mainly in the form of free Mn2+ ion, and to a much lesser extent (11%) in the form of MnSO4. On the other hand, within the technologically polluted territories, the key role belongs to the inorganic ligand SO42–, the ratio of soluble compounds MnSO4 and Mn2+ is, respectively, 56% to 44%. The obtained results can serve as a basis for the selection of criteria when performing biogeochemical zoning of the territory of Ukraine.
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