GIS-BASED LANDSCAPE MANAGEMENT OF THE UZH RIVER BASIN: A STRATEGY TO ENHANCE RIVER WATER QUALITY

Pub Date : 2023-08-09 DOI:10.15407/knit2023.04.043
T. P. FEDONIUK, O. V. SKYDAN, T. V. MELNYCHUK, A. A. ZYMAROIEVA, V. M. PAZYCH
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Abstract

The article includes the findings of a study on the Uzh River basin’s surface water’s quality. This region is extremely important because a fraction of it is radioactively contaminated because of the Chornobyl nuclear power plant accident. Considering this, the goal of this work was to conduct a geo-informational analysis of the state and structure of the landscapes of the Uzh River basin, to identify the surface water quality parameters of this region, and to identify potential correlations between these parameters. For this purpose, we spatially divided the territory of the basin into separate massifs, in each of which, using the method of automatic decoding, we determined the ratio of the structural components of landscapes, their disturbance by erosion processes, and compared them with ground data on the quality of surface water of the massifs. According to the salt composition, all the investigated massifs have good quality conditions. The Uzh River and its tributaries should be categorized as 4 (slightly polluted) based on the average values of the trophosaprobological state, but the extreme values in some places shifted to 5 (moderately polluted). Most of the listed toxic substances were present at average levels and, for the most part, did not exceed the permitted concentrations for category 4-slightly polluted. Extreme concentrations frequently reached category 6 (polluted), which was primarily brought on by anthropogenic activity and the buildup of radioactive materials. It was found that the degree of erosive landscape destruction and the degree of landscape stabilization significantly influence the value of the integrated water quality index. Since the collected data, a three-dimensional model was developed, allowing for accurate evaluations and projections of changes in the quality of surface water based on the structural characteristics of the land shafts. Considering that some of these territories are currently in the zone of radioactive contamination, the planning of changes in the landscape structure should be coordinated with the potential risks of surface water quality deterioration, and the model proposed in this article will have significant applied value in addressing this issue.
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基于gis的uzh河流域景观管理:提高河流水质的策略
本文包括对乌祖河流域地表水水质的研究结果。这个地区非常重要,因为由于切尔诺贝利核电站事故,它的一小部分受到了放射性污染。考虑到这一点,本工作的目标是对乌祖河流域的景观状态和结构进行地理信息分析,确定该地区的地表水质量参数,并确定这些参数之间的潜在相关性。为此,我们在空间上将盆地的领土划分为独立的地块,在每个地块中,我们使用自动解码的方法确定景观结构成分的比例,它们受到侵蚀过程的干扰,并将其与地块地表水质量的地面数据进行比较。从盐的组成来看,所调查的岩体均具有良好的质量条件。根据滋养微生物状态的平均值,乌祖河及其支流应被划分为4级(轻度污染),但部分地方的极值转移到5级(中度污染)。大多数列出的有毒物质都处于平均水平,其中大部分没有超过4类轻微污染的允许浓度。极端浓度经常达到6级(污染),这主要是由人为活动和放射性物质的积累引起的。研究发现,侵蚀性景观破坏程度和景观稳定程度显著影响综合水质指数的取值。根据收集到的数据,开发了一个三维模型,可以根据地面竖井的结构特征对地表水质量的变化进行准确的评价和预测。考虑到其中一些领土目前处于放射性污染区,景观结构变化的规划应与地表水水质恶化的潜在风险相协调,本文提出的模型对解决这一问题具有重要的应用价值。
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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