印度西南部一个小型热带河流集水区的化学风化和二氧化碳消耗

IF 1.7 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
Baby Krishnan Nisha, Keshava Balakrishna, Harikripa Narayana Udayashankar, Busnur Rachotappa Manjunatha
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引用次数: 5

摘要

对位于印度西南部西高止山脉的小型热带西流河流集水区进行的研究表明,化学风化率和相关的二氧化碳消耗非常强烈。尽管这些集水区作为全球尺度大气二氧化碳的潜在汇具有重要意义,但关于它们的研究报告却很少。研究人员分别在2016年和2017年季风前、季风期和季风后季节从印度西南部的一个小河集水区Payaswini-Chandragiri河流域收集了156个样本。这个河流系统包括两条小河,起源于印度半岛西高止山脉海拔1350米的地方。集水区以黑云母硅线质片麻岩为主。钠是主要阳离子,贡献了约50%的阳离子,而HCO3−贡献了约75%的阴离子。样品中阴离子的平均浓度在HCO3−> Cl−> SO42−> NO3−> F−范围内变化,而正离子浓度在Na+ > Ca2+ > Mg2+ > K+范围内变化。2016年的平均硅酸盐风化速率为42 t km−2 y−1,2017年为36 t km−2 y−1。2016年和2017年硅酸盐岩石风化作用的年平均二氧化碳消耗率(CCR)分别为9.6 × 105 mol km−2y−1和8.3 × 105 mol km−2y−1。由于其独特的地形、炎热潮湿的气候和强降雨,研究区域的CCR高于其他大型热带河流集水区,如亚马逊河、刚果-扎伊尔河、奥里诺科河、巴拉那河和印度河。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chemical weathering and carbon dioxide consumption in a small tropical river catchment, southwestern India

Studies done on small tropical west-flowing river catchments located in the Western Ghats in southwestern India have suggested very intense chemical weathering rates and associated CO2 consumption. Very less studies are reported from these catchments notwithstanding their importance as potential sinks of atmospheric CO2 at the global scale. A total of 156 samples were collected from a small river catchment in the southwestern India, the Payaswini–Chandragiri river Basin, during pre-monsoon, monsoon and post-monsoon seasons in 2016 and 2017, respectively. This river system comprises two small rivers originating at an elevation of 1350 m in the Western Ghats in peninsular India. The catchment area is dominated by biotite sillimanite gneiss. Sodium is the dominant cation, contributing ~ 50% of the total cations, whereas HCO3 contributes ~ 75% of total anions. The average anion concentration in the samples varied in the range HCO3 > Cl > SO42− > NO3 > F, whereas major cation concentration varied in the range Na+  > Ca2+  > Mg2+  > K+. The average silicate weathering rate (SWR) was 42 t km−2 y−1 in the year 2016 and 36 t km−2 y−1 in 2017. The average annual carbon dioxide consumption rate (CCR) due to silicate rock weathering was 9.6 × 105 mol km−2y−1 and 8.3 × 105 mol km−2 y−1 for 2016 and 2017, respectively. The CCR in the study area is higher than other large tropical river catchments like Amazon, Congo-Zaire, Orinoco, Parana and Indus because of its unique topography, hot and humid climate and intense rainfall.

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来源期刊
Aquatic Geochemistry
Aquatic Geochemistry 地学-地球化学与地球物理
CiteScore
4.30
自引率
0.00%
发文量
6
审稿时长
1 months
期刊介绍: We publish original studies relating to the geochemistry of natural waters and their interactions with rocks and minerals under near Earth-surface conditions. Coverage includes theoretical, experimental, and modeling papers dealing with this subject area, as well as papers presenting observations of natural systems that stress major processes. The journal also presents `letter''-type papers for rapid publication and a limited number of review-type papers on topics of particularly broad interest or current major controversy.
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