Constraining the Origin and Age of the Thermal and Cold Water in the Lake Natron Basin, Northern Tanzania

Tanzania Journal of Science Pub Date : 2022-12-30 DOI:10.4314/tjs.v48i4.8

Edista A. Abdallah, C. H. Kasanzu, C. Kinabo, A. Imai, M. Butler

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引用次数: 1

Abstract

Springs on the eastern and western shores of Lake Natron Basin (LNB), located within the eastern branch of the East Africa Rift System (EARS) in Northern Tanzania had a discharge temperature that ranged between 34.0 °C and 51.2 °C, while the pH varied from 8.0 to 10.7. The electrical conductivity (EC) ranged between 5,007 µS/cm and 49,200 µS/cm. Cold waters had a temperature of 31.9 °C to 32.5 °C, while the pH ranged between 8.0 and 8.3, and the EC ranged between 1,401 µS/cm and 3,806 µS/cm. The stable isotope composition varied between -2.4 ‰ and -5.3 ‰ for δ18O, and -15.5 ‰ to -29.3 ‰ for δ2H. The isotopic composition of thermal and cold water of LNB indicates a significant contribution of meteoric water in the recharge of the hydrothermal system. However, thermal water is affected by evaporation, water-rock interaction, carbon dioxide (CO2) exchange and condensation processes. Tritium analysis indicated that the spring water in the LNB hydrothermal system has a residence time of more than 50 years. Keywords: thermal water; Lake Natron Basin; stable isotopes; springs.

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坦桑尼亚北部Natron湖盆地冷热水的成因与时代研究

位于坦桑尼亚北部东非裂谷系(EARS)东部分支内的Natron湖盆地(LNB)东岸和西岸的泉水，出水温度在34.0 ~ 51.2℃之间，pH值在8.0 ~ 10.7之间。电导率(EC)范围为5007µS/cm ~ 49200µS/cm。冷水的温度为31.9°C至32.5°C, pH值为8.0至8.3,EC值为1,401µS/cm至3,806µS/cm。δ18O稳定同位素组成变化范围为-2.4‰~ -5.3‰，δ2H稳定同位素组成变化范围为-15.5‰~ -29.3‰。LNB冷热水的同位素组成表明，大气水对热液系统的补给有重要贡献。然而，热水受到蒸发、水岩相互作用、二氧化碳交换和冷凝过程的影响。氚分析表明，LNB热液系统中泉水的停留时间超过50年。关键词:热水;纳特龙湖盆地;稳定同位素;弹簧。

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Tanzania Journal of Science

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