Hydrogeochemical analysis and identification of solute sources in the meltwater of Chaturangi glacier, Garhwal Himalaya, India

Bisht, Himani; Kotlia, Bahadur Singh; Kumar, Kireet; Taloor, Ajay Kumar; Arya, Prakash Chandra; Sah, Saurabh; Agnihotri, Vasudha; Tewari, Mohit; Upadhyay, Rajeev

doi:10.1007/s13201-021-01510-5

Cited by 7 publications

(2 citation statements)

References 70 publications

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“…The Youyu stream is influenced by industrial and mining activities, and the urban Jinzhong stream is affected by the discharge of municipal domestic wastewater, but the Mg 2+ is produced by rock weathering and is relatively stable in water ( Bisht et al, 2022 ; He et al, 2022 ). Therefore, we selected Mg 2+ to compare and analyze the ion composition characteristics of river water.…”

Section: Discussionmentioning

confidence: 99%

Major ion compositions, sources and risk assessment of karst stream under the influence of anthropogenic activities, Guizhou Province, Southwest China

Yang

et al. 2023

PeerJ

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To explore the influence of different types of anthropogenic activity on the rivers, we investigate the major ion composition, sources and risk assessment of the karst stream (Youyu stream and Jinzhong stream), which are heavily influenced by mining activities and urban sewage, respectively. The chemical compositions of the Youyu stream water, which is heavily influenced by mining activities, are dominated by Ca2+ and SO42–. However, the chemical compositions of the Jinzhong stream water, which is heavily influenced by urban sewage, are dominated by Ca2+ and HCO3–. The Ca2+, Mg2+ and HCO3– in Jinzhong stream are mainly derived from rock weathering, while the Youyu stream is affected by acid mine drainage, and sulfuric acid is involved in the weathering process. Ion sources analysis indicates that the Na+, K+, NO3–, and Cl– in the Jinzhong stream mainly derive from urban sewage discharge; but NO3– and Cl– of the Youyu stream mainly derive from agricultural activities, and Na+, K+ are mainly from natural sources. The element ratios analysis indicates the ratio of SO42–/Mg2+ in Youyu stream (4.61) polluted by coal mine is much higher than that in Jinzhong stream (1.29), and the ratio of (Na++K++Cl–)/Mg2+ in Jinzhong stream (1.81) polluted by urban sewage is higher than Youyu stream (0.64). Moreover, the ratios of NO3−/Na+, NO3−/K+, and NO3−/Cl− in the agriculturally polluted Youyu stream were higher than those in the Jinzhong stream. We can identify the impact of human activities on streams by ion ratios (SO42–/Mg2+, (Na++K++Cl–)/Mg2+, NO3−/Na+, NO3−/K+, and NO3−/Cl−). The health risk assessment shows the HQT and HQN for children and adults are higher in Jinzhong stream than in Youyu stream and the total HQ value (HQT) of children was higher than one at J1 in the Jinzhong stream, which shows that children in Jinzhong stream basin are threatened by non-carcinogenic pollutants. Each HQ value of F− and NO3− for children was higher than 0.1 in the tributaries into Aha Lake, indicating that the children may also be potentially endangered.

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Section: Discussionmentioning

confidence: 99%

Major ion compositions, sources and risk assessment of karst stream under the influence of anthropogenic activities, Guizhou Province, Southwest China

Yang

et al. 2023

PeerJ

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“…Furthermore, rather than relying on a previous assumption, these algorithms discover the link between response variables and predictors, enhancing model prediction accuracy. It is proved that RF-based models are appropriated for the analysis of water quality because they are flexible in handling non-linear relationships, limit model overfitting, have less user defined parameters and are capable of incorporating the quantitative and qualitative variables [15].…”

Section: Introductionmentioning

confidence: 99%

Big Data Analysis Framework for Water Quality Indicators with Assimilation of IoT and ML

et al. 2022

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According to the United Nations, the Sustainable Development Goal ‘6’ seeks to ensure the availability and sustainable management of water for all. Digital technologies, such as big data, Internet of Things (IoT), and machine learning (ML) have a significant role and capability to meet the goal. Water quality analysis in any region is critical to identify and understand the standard of water quality and the quality of water is analyzed based on water quality parameters (WQP). Currently, water pollution and the scarcity of water are two major concerns in the region of Uttarakhand, and the analysis of water before it is supplied for human consumption has gained attention. In this study, a big data analytics framework is proposed to analyze the water quality parameters of 13 districts of Uttarakhand and find the correlation among the parameters with the assimilation of IoT and ML. During the analysis, statistical and fractal methods are implemented to understand the anomalies between the water quality parameters in 13 districts of Uttarakhand. The variation in WQP is analyzed using a random forest (RF) model, and the dataset is segmented location wise and the mean, mode, standard deviation, median, kurtosis, and skewness of time series datasets are examined. The mean of the parameters is adjusted with the coefficient of variation based on the standard values of each parameter. The turbidity in almost all the experimental sites has a normal distribution, with the lowest mean value (0.352 mg/L) and highest (11.9 mg/L) in the Pauri Garhwal and Almora districts, respectively. The pH of the water samples is observed to be in the standard range in all the experimental sites, with average and median values being nearly identical, at 7.189 and 7.20, respectively. However, the pH mode is 0.25. The Cl− concentration varies with mean values from the lowest (0.46 mg/L) to the highest (35.2 mg/L) over the experimental sites, i.e., the Bageshwar and Rudraprayag districts, respectively. Based on the analysis, it was concluded that the water samples were found to be safe to drink and in healthy condition in almost all the districts of the state Uttarakhand, except for the Haridwar district, where some increase in contaminants was observed.

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Climate Change Impact on Hydrogeochemical Characteristics of Himalayan Glacier Meltwater

Kumar,

Singh

et al. 2024

Sustainable Development Goals Series

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Hydrogeochemical analysis and identification of solute sources in the meltwater of Chaturangi glacier, Garhwal Himalaya, India

Cited by 7 publications

References 70 publications

Major ion compositions, sources and risk assessment of karst stream under the influence of anthropogenic activities, Guizhou Province, Southwest China

Major ion compositions, sources and risk assessment of karst stream under the influence of anthropogenic activities, Guizhou Province, Southwest China

Big Data Analysis Framework for Water Quality Indicators with Assimilation of IoT and ML

Climate Change Impact on Hydrogeochemical Characteristics of Himalayan Glacier Meltwater

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