High Altitude Lake and Hydrochemistry: A Study of Lam Dal and Six Consecutive Lakes of Dhauladhar, Himachal Himalaya, India

IF 0.7 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES
Riju, H. P. Singh, Anurag Linda
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引用次数: 0

Abstract

Increased human influence has warmed the atmosphere, ocean and land thereby resulting in widespread and rapid changes in the atmosphere, ocean, cryosphere and biosphere (IPCC, 2021). High altitude lakes are generally small and quite sensitive to natural and anthropogenic perturbations. The present work is a preliminary work to investigate different hydro chemical processes and factors that controls the geochemistry of a high altitude lake, Lam Lake (dal) and its consecutive six lakes flowing through the Chamba district, Himachal Pradesh. Two hundred and eighty (n=280) water samples were collected in the year 2017 during the pre-monsoon and post-monsoon season. The anion concentration for all the seven lakes followed the trend HCO3- > NO3- > Cl- > SO42- > PO43- whereas the order of cation concentrations was Ca2+> Mg2+> Na+> K+ for both the seasons. Less EC of the water samples shows its serene nature. Components of bicarbonate (HCO3-) were found to be the major anion whereas calcium (Ca2+) was found to be the major cation present in the lakes. Piper Plot and Durov plot indicated Ca2+ – HCO3- as the major hydrogeochemical facies with comparatively less contribution from Mg2+–HCO3- type. The dominance of Ca2+ – HCO3- over Mg2+– HCO3- reflects the possibility of the natural order of dominance in the geology of the catchment area. The low Na+ + K+/TZ+ (total cations) ratios and the high Ca2+ + Mg2+/TZ+ (total cations) and (Ca2+ + Mg2+)/(Na+ + K+) ratios showed dominance of carbonate weathering. The average carbon ratios during pre-monsoon and post-monsoon were found to be 0.97 and 0.98, respectively, suggesting that proton is primarily derived from the oxidation of sulphide involving carbonate dissolution. The baseline data generated for a high-altitude lake shows that weathering and erosion during monsoonal precipitation and snow melt runoff during ablation season are the main sources of the chemical composition of lake water. Further to trace the imprints of climate change and seasonal variations in the high-altitude lakes, long term monitoring is recommended along with isotopic tracer techniques.
高海拔湖泊与水化学:印度喜马偕尔-喜马拉雅地区拉拉达尔林达尔湖及6个连续湖泊的研究
人类影响的增加使大气、海洋和陆地变暖,从而导致大气、海洋、冰冻圈和生物圈发生广泛和迅速的变化(IPCC, 2021年)。高海拔湖泊通常很小,对自然和人为扰动相当敏感。本研究是对喜马偕尔邦昌巴地区高海拔湖泊拉姆湖(dal)及其连续六个湖泊的不同水化学过程和控制地球化学因素的初步研究。2017年在季风前和季风后季节收集了280个水样。7个湖泊阴离子浓度变化趋势为HCO3- > NO3- > Cl- > SO42- > PO43-,阳离子浓度变化趋势为Ca2+> Mg2+> Na+> K+。较少的水样EC显示其宁静的性质。碳酸氢盐(HCO3-)的成分被发现是主要的阴离子,而钙(Ca2+)被发现是主要的阳离子。Piper图和Durov图显示Ca2+ - HCO3-型为主要的水文地球化学相,Mg2+ - HCO3-型贡献相对较小。Ca2+ - HCO3-对Mg2+ - HCO3-的优势反映了集水区地质中存在自然优势顺序的可能性。低Na+ + K+/TZ+(总阳离子)比值和高Ca2+ + Mg2+/TZ+(总阳离子)和(Ca2+ + Mg2+)/(Na+ + K+)比值表明碳酸盐风化作用占主导地位。季风前和季风后的平均碳比分别为0.97和0.98,表明质子主要来自碳酸盐溶解的硫化物氧化。高海拔湖泊的基线数据表明,季风降水期间的风化和侵蚀以及消融季节的融雪径流是湖泊水化学成分的主要来源。为了进一步追踪高海拔湖泊中气候变化和季节变化的印记,建议采用同位素示踪技术进行长期监测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Climate Change
Journal of Climate Change METEOROLOGY & ATMOSPHERIC SCIENCES-
自引率
16.70%
发文量
18
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