参照水质指数评估铀对马哈拉施特拉邦 Chandrapur 地区人类健康的毒理学影响

Pooja B. Matte, Kavita S. Raipurkar, Pranav Mandal
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摘要

地下水是一种重要的资源,全球约 80% 的人口完全依靠地下水来满足生活需求。本次调查使用 WQI 对地下水质量进行了评估。在 2021 年 11 月季风后时期,对钱德拉布尔地区的温度、pH 值、电导率、溶解氧、碱度、总淀粉含量、硫酸盐、氟化物、碳酸氢盐、氯化物、铀、总硬度、钙和镁硬度等参数进行了评估。为开展这项研究,从不同的水文站共采集了 116 份地下水样本,用于评估水质指数。水质指数是评估饮用水水质的重要工具,分为优秀到不安全,即 0-100 分。本次调查发现,水质指数在 27.63-674.56 之间,超过了最低和最高分。本次调查的结果显示,只有 5.17% 的水可安全饮用,18% 的水水质较差,15% 的水水质极差,77% 的水不适合饮用,使用前需要进行适当处理。在这次调查中,还评估了地下水中的铀对人体健康的化学毒性和放射性影响。化学毒性和放射性影响采用美国环保局给出的标准方程进行分析。发现死亡率和发病率的辐射风险分别为 1.37E-05-1.47E-05。由此可见,铀的存在和辐射风险低于 AERB 标准的允许限值。在化学毒性方面,观察到终生日均剂量(LADD)和危害商数(HQ)的平均值分别为 0.315 和 0.00571,发现有 8.62% 的样本人群具有 LADD 化学毒性,且高于允许限值,这可能会影响人体健康,产生肾毒性、骨毒性和肺毒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of the toxicological effects of uranium on human health in Chandrapur, Maharashtra, with reference to the water quality index
Groundwater is an important resource and approximate 80% of the world’s population depends solely on it to satisfy their needs. In the present investigation groundwater quality was assessed using WQI. For the same parameters viz, temperature, pH, conductivity, DO, alkalinity, TDS, sulphate, fluoride, bicarbonate, chloride, uranium, total hardness, calcium and magnesium hardness were assessed during post monsoon period in November 2021 in the Chandrapur region. For conducting this research total 116 groundwater samples were collected from different hydrological stations for the assessment of WQI. WQI is an important tool to assess quality of water for drinking and is classified as excellent to unsafe, i.e., 0-100 score. In this investigation WQI was found to be in the range between 27.63-674.56 exceeding both minimum and maximum score. The results of the present investigation showed that only 5.17% of water is safe for drinking,18% of water indicated poor water quality, 15% of water has very poor water quality and 77% of water is unsuitable for drinking purpose and proper treatment is required before use. During this investigation uranium in groundwater was also assessed considering its chemotoxical and radiological effects on human health. The chemotoxical and radiological effects were analyzed adopting standard equations given by USEPA. The radiological risk of mortality and morbidity was found to be 1.37E-05-1.47E-05, respectively. Thus, presence of uranium was noted and radiological risk was found to be below the permissible limit of AERB standard. The chemical toxicity of average value of Lifetime Average Daily Dose (LADD) and Hazard Quotient (HQ) was observed 0.315 and 0.00571, respectively and chemical toxicity of LADD was found to be in 8.62% sample population and above the permissible limits which can affect human health and can have kidney toxicity, bone and lung toxicity.
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