日托米尔地区社区水质模型地理信息系统

R. Valerko, L. Herasymchuk, Oleksandr Kratiuk
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摘要

摘要 为确保使用自备水井、井眼和天然水源供应生活用水的农村居民点居民获得安全优质的饮用水,有必要使用地理信息系统 (GIS) 技术对地下饮用水的质量进行综合评估。本研究的目的是评估日托米尔区联合领土社区(UTCs)农村居民点非集中供水饮用水源的质量,并根据研究成果创建地理信息模型。在研究过程中使用了以下研究方法:分析、实地、实验室、统计、计算和制图。研究在日托米尔区 12 个 UTC 的 129 个居民点进行,从非集中式供水水源采集饮用水样本,在国立波利西亚大学测量实验室进行进一步分析,并使用 ArcGIS Pro 软件包创建地理信息模型。事实证明,所研究住区的平均 pH 值均未超过标准。非集中式水源的饮用水中硝酸盐的平均浓度超出标准 1.4-3.5 倍,特别是在 Pulyny、Cherniakhiv、Vilshanka、Volytsia 和 Oliivka 社区的水源中,超过最大可接受浓度 (MAC) 限值 2 倍以上。只有柳巴尔社区农村居民点的平均铁含量超出标准 1.9 倍以上。总体而言,日托米尔区的总体水质等级计算值为 2.03,被确定为 "良好",水质清洁可接受。维尔尚卡、切尔尼亚科夫和斯坦尼希夫卡社区的水质最好,水质等级范围为 1.85-1.93,而奥利夫卡、捷捷夫卡和柳巴社区的水质最差,水质等级范围为 2.13-2.31。经确定,硝酸盐和铁含量对整体水质的影响最大。研究社区的地方政府可利用所获得的研究成果和基于这些成果的模型,向居民宣传饮用水的质量,并制定改善饮用水供应状况的计划,以提高饮用水的环境安全水平。
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Geographic Information Systems for Water Quality Modeling in the Zhytomyr District Communities
Abstract To ensure safe and quality drinking water for residents of rural settlements who use their own wells, boreholes, and natural sources for domestic water supply, a comprehensive approach to evaluating the quality of underground drinking water using geographic information system (GIS) technologies is necessary. The purpose of the study was to assess the quality of drinking water sources of noncentralized water supply in rural settlements of the united territorial communities (UTCs) of Zhytomyr district and to create geoinformation models based on the research results. The following research methods were used during the research: analytical, field, laboratory, statistical, calculation, and cartographic. The research was conducted in 129 settlements of 12 UTCs of Zhytomyr district, where drinking water samples were collected from noncentralized water supply sources for further analysis in the Measurement Laboratory of Polissia National University, and the creation of geoinformation models using the ArcGIS Pro software package. It has been proven that the average pH level in none of the studied settlements exceeded the norm. The average nitrate concentration in the drinking water from noncentralized water sources exceeded the norm by 1.4–3.5 times, specifically in the water of the Pulyny, Cherniakhiv, Vilshanka, Volytsia, and Oliivka communities, exceeding the maximum acceptable concentration (MAC) limit by more than two times. Only in rural settlements in the Liubar community was the average iron content found to be above the norm by more than 1.9 times. Overall, it was established that the calculated value of the overall water quality class in the Zhytomyr district was 2.03, which is determined as “good,” clean water of acceptable quality. The best water quality was found in the Vilshanka, Cherniakhiv, and Stanyshivka communities, with a quality class range of 1.85–1.93, while the worst water quality was recorded in the Oliivka, Teterivka, and Liubar communities, with a quality class range of 2.13–2.31. It was determined that the highest contribution to the overall water quality was made by nitrate and iron content. The obtained research results and models based on them can be used by local governments of the studied communities to inform the population about the quality of drinking water and to develop a plan for improving the state of drinking water supply with the aim of increasing the level of environmental safety of drinking water.
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