别列兹尼基市区(彼尔姆地区)积雪微量元素组成

E. Ushakova, A. Puzik, T. Karavaeva
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引用次数: 2

摘要

城市化地区经历了沉重的技术负担,特别是如果城市的核心与工业活动有关。2018年,彼尔姆地区的空气排放量在伏尔加河联邦区排名第四。彼尔姆地区别列兹尼基市区的化学和采矿活动对日益严重的空气污染作出了巨大贡献。在此之前,已经确定污染物在城市中的分布受区域的自然地理特征和污染物扩散的气象条件的影响。本文说明了监测别列兹尼基市区积雪中元素的航空技术扩散的必要性。2018年3月,对积雪中25种微量元素组成进行了研究。考虑到该地区的功能用途(工业、娱乐、交通和住宅区),对这些元素的环境和化学分布进行了评估。融雪水的技术污染程度由融雪水的积累系数和分散系数决定。在浓度系数的基础上,发现了相对于背景含量增加的异常,包括Pb-Ti-Ge-Ga-Se, Ni和v的关联,娱乐设施相对于工业区受到更大的技术负荷。利用总污染指数Zc分析了研究区积雪中微量元素的空间分布。研究确定了扩大城区大气污染监测中观测物质清单的必要性,并将积雪污染控制作为观测方案的补充。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MICROELEMENT COMPOSITION OF THE SNOW COVER IN THE BEREZNIKI URBAN DISTRICT (PERM REGION)
Urbanized areas experience heavy technological load, especially if the core of the city is associated with industrial activities. In 2018, the Perm region ranked fourth in the Volga Federal District in terms of air emissions. Chemical and mining activities in the Berezniki urban district of the Perm region make a huge contribution to increasing air pollution. Previously, it was established that the distribution of pollutants across the city was affected by the physical and geographical characteristics of the area and meteorological conditions of pollutant dispersion. The paper shows the need to monitor aerotechnogenic dispersion of elements in the snow cover within the Berezniki urban district. In March 2018, the microelement composition of the snow cover was studied with regard to 25 elements. The environmental and chemical distribution of the elements was assessed taking into account the functional use of the territory (industrial, recreational, transport, and residential areas). The degree of technogenic pollution level of melt snow water was determined by the accumulation and dispersion coefficients. On the basis of the concentration coefficient, there were identified anomalies with increased content relative to the background, those including the association Pb-Ti-Ge-Ga-Se, Ni and V. Recreational facilities were found to be subject to increased technogenic load relative to industrial areas. Spatial distribution of microelements in the snow cover of the study area was analyzed using the total pollution index Zc. The research established the need to expand the list of substances observed in the monitoring of atmospheric air pollution in the urban district and to supplement the observation programs with control of the snow cover pollution.
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