Revealing the Surge Phenomena Contribution of the Heavy Metals Inflow to the River Don Delta

IF 0.7 Q4 OCEANOGRAPHY Physical Oceanography Pub Date : 2020-09-01 DOI:10.22449/0233-7584-2020-5-582-594
I. Sheverdyaev, A. V. Kleschenkov
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引用次数: 1

Abstract

Purpose. The aim of the study is to evaluate the surge phenomena effect on the heavy metals inflow to the Don Delta based on the archival and expedition data analysis, as well as using mathematical modeling. Methods and Results. To achieve the purpose, the Hydrologic Engineering Center River Analysis System (HEC-RAS) mathematical hydrodynamic model and the original model of the heavy metal compounds’ transfer and transformation in the Don Delta, developed by S. V. Berdnikov were applied. The models included the irregular grid for the Don Delta region with the average resolution 100 × 100 m. The grid cells were grouped into the compartments according to the hydrological principle. Twelve scenarios of dynamics of the suspended solids, and the dissolved and suspended forms of Ni, Cu, Pb and Cd were calculated for the surges of various intensity under the conditions of variable water content and seasonal dynamics of near-water vegetation. In accordance with the scenarios, the graphs showing the changes in the suspended matter content and accumulation, and the maps of the deposited substance distribution resulted from the surges in the delta were constructed. During two days the calculations for which include the surges of varying repeatability and the variable water content, about 0.3–3 t of nickel compounds, 0.1–1.8 t of copper compounds, 0.2–1.8 t of lead compounds and 0.01–0.04 t of cadmium ones deposit in Don. The obtained results made it possible to reveal two regions where the increased accumulation of the precipitated suspended matter and the heightened concentrations of the heavy metal dissolved forms were observed: the interfluve of the Don shipping channel, and the systems of the Kalancha and Kuterma river branches. Conclusions. As for their influence upon formation of the flow of the heavy metal suspended forms, the surge phenomena surpass the river flow. The suspended matter concentration in the Taganrog Bay waters during the surges is the governing factor for the heavy metals inflow to the Don Delta. At the same time, the regions characterized by the highest suspended solids sedimentation and the increased concentrations of the heavy metal dissolved forms are the closest to the Taganrog Bay areas covered by reed vegetation.
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揭示重金属流入顿河三角洲的涌浪现象
目的。本文通过档案资料和考察资料的分析,结合数学模型的建立,探讨激流现象对顿河三角洲重金属流入的影响。方法与结果。为此,应用水文工程中心河流分析系统(HEC-RAS)的水动力数学模型和S. V. Berdnikov开发的顿河三角洲重金属化合物迁移和转化的原始模型。模型包括顿河三角洲地区的不规则网格,平均分辨率为100 × 100 m。根据水文原理,网格单元被划分成不同的隔间。在不同含水量和季节动态条件下,计算了12种不同强度的悬浮物动态,以及Ni、Cu、Pb和Cd的溶解和悬浮形态。根据不同的情景,绘制了悬浮物含量和累积量的变化曲线图,以及三角洲浪涌导致的沉积物质分布图。在两天的计算中,包括不同重复性和不同含水量的激增,大约0.3-3吨镍化合物,0.1-1.8吨铜化合物,0.2-1.8吨铅化合物和0.01-0.04吨镉化合物沉积在唐。所获得的结果可以揭示两个区域,在那里观察到沉淀悬浮物的积累增加和重金属溶解形式的浓度增加:顿河航运通道的交汇处,以及Kalancha和Kuterma河支流的系统。结论。就其对重金属悬浮形态水流形成的影响而言,浪涌现象超过了河流水流。涨潮期间塔甘罗格湾水域的悬浮物浓度是重金属流入顿河三角洲的控制因素。同时,悬浮物沉降量最高和重金属溶解形式浓度增加的区域最接近芦苇覆盖的塔甘罗格湾地区。
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来源期刊
Physical Oceanography
Physical Oceanography OCEANOGRAPHY-
CiteScore
1.80
自引率
25.00%
发文量
8
审稿时长
24 weeks
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