Origin of Underground Brine in Potassium-Bearing Strata in Khammouane, Central Laos

Zhanjie Qin; Qingkuan Li; Qishun Fan; Xiangru Zhang; Yongsheng Du; Haicheng Wei; Qin Yuan; Jianping Wang; Fashou Shan

doi:10.1134/S0016702919120139

Origin of Underground Brine in Potassium-Bearing Strata in Khammouane, Central Laos

Авторы: Zhanjie Qin ¹^,2^,3, Li Q.¹^,2^,3, Fan Q.¹^,2, Zhang X.¹^,2^,3, Du Y.¹^,2^,3, Wei H.¹^,2, Yuan Q.¹^,2^,3, Wang J.¹^,2, Shan F.¹^,2
Учреждения:
1. Key Laboratory of Comprehensive and Highly Efficient Utilization of Salt Lake Resources, Qinghai Institute of Salt Lakes, Chinese Academy of Sciences
2. Qinghai Provincial Key Laboratory of Geology and Environment of Salt Lakes
3. University of Chinese Academy of Sciences
Выпуск: Том 57, № 12 (2019)
Страницы: 1327-1338
Раздел: Article
URL: https://journals.rcsi.science/0016-7029/article/view/156397
DOI: https://doi.org/10.1134/S0016702919120139
ID: 156397

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Аннотация

The Khorat Plateau is one of the largest potash deposits in the world. In recent years, exploitation of potash resources accompanied by leakage of underground brines (UB) in potassium-bearing strata has threatened mining safety. However, there is little research on origin of UB in Laos. In this study, twelve samples of UB, salt springs (SS) and river waters were collected in Khammouane mining area, central Laos and analyzed for ionic and boron isotopic compositions. The results show that both of UB, dominated by K⁺, Mg²⁺, Na⁺ and Cl^– ions, and SS, enriched in Na⁺ and Cl^–, are chloride-type brines, while river waters abundant in Ca²⁺ and HC\({\text{O}}_{3}^{ - }\) ions are carbonate-type waters. K⁺ (35.1–53.7 g/L) and Rb⁺ (12.9–16.6 mg/L) concentrations of UB are higher than the peak (25.9 g/L, 9.4 mg/L) of seawater evaporation trajectories (SET). UB is also characterized by high Mg²⁺ (32.7–68.0 g/L) and Br^– (1795.2–2801.3 mg/L) concentrations and its lg(Cl/Br) ratios (1.9–2.1) deviate from the halite dissolution line. These comparisons indicate that the water chemistries of UB are mainly influenced by dissolution of carnallite and sylvite. High Sr²⁺ concentrations (31.8–58.6 mg/L) in UB might be simultaneously associated with dissolution of potash salt and Ca-bearing minerals (carbonate and anhydrite). The negative saturation indices (SI) of different salt minerals in UB suggest that salt minerals are unsaturated in UB. Meanwhile, boron (B) concentrations (396.0–426.0 mg/L) and δ¹¹B values (+19.8–+21.0‰) of UB fall in between low B–δ¹¹B end member (0.02 mg/L, +2.31‰) of river water and high B-δ¹¹B end member (126.7–890.8 μg/g, +25.94–+32.94‰) of evaporitic minerals. The comparison implies that UB was influenced and mixed by two end members. Therefore, combining with major and trace ionic concentrations, isotopic compositions and lithologies of salt-bearing strata revealed by drillings in mining area, we conclude that the major solute source in UB is derived from dissolution of carnallite and sylvite. These geochemical evidences provide insights into dealing with leakage of underground brines occurred in the underground mining of potash deposits in Laos.

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underground brine, water chemistry, boron isotope, potash deposit, Laos

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Zhanjie Qin

Key Laboratory of Comprehensive and Highly Efficient Utilization of Salt Lake Resources, Qinghai Institute of Salt Lakes, Chinese Academy of Sciences; Qinghai Provincial Key Laboratory of Geology and Environment of Salt Lakes; University of Chinese Academy of Sciences

Автор, ответственный за переписку.
Email: qinzhanjie@isl.ac.cn
Китай, Xining, 810008; Xining, 810008; Beijing, 100049

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