Assessment of the Impact of PM2.5 Air Pollution on River Dynamics: A Case Study of Daqing, China.

River Studies Pub Date : 2024-02-28 DOI:10.61848/rst.v1i3.24

Jianmin Bian

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Abstract

This study aims to explore the causal relationship between air pollution and river flow in Daqing City, specifically focusing on PM2.5 particle concentration. During comprehensive five-year research, a progressive decrease in air quality was seen, shown by a rise in the yearly average PM2.5 concentration from 13.4 µg/m³ to 18.7 µg/m³. This work utilizes hydrological modeling to reveal a strong negative association between the rise in PM2.5 concentration and the decline in river flow. The decline observed can be attributed to variations in solar radiation and surface temperature, which are clearly impacted by pollution. Ecological investigations showed that the decrease in river flow led to severe ecological impacts, including higher water temperature and alterations in nitrogen levels. This study emphasizes the crucial need to implement thorough environmental management strategies to successfully reduce the detrimental effects of air pollution on river ecosystems. This study enhances our comprehension of the intricate connection between air pollution and river dynamics, on both a regional scale and within the wider context of the southern hemisphere. It highlights the worldwide significance of safeguarding clean air and water resources.

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PM2.5 空气污染对河流动力学影响的评估：中国大庆案例研究。

本研究旨在探讨大庆市空气污染与河流流量之间的因果关系，特别关注 PM2.5 颗粒物浓度。在为期五年的综合研究中，空气质量逐渐下降，PM2.5 年平均浓度从 13.4 µg/m³ 上升到 18.7 µg/m³。这项研究利用水文模型揭示了 PM2.5 浓度上升与河流流量下降之间的密切负相关关系。观测到的流量下降可归因于太阳辐射和地表温度的变化，而这显然会受到污染的影响。生态调查显示，河流流量的减少导致了严重的生态影响，包括水温升高和氮含量的变化。这项研究强调了实施彻底的环境管理策略以成功减少空气污染对河流生态系统的不利影响的极端必要性。这项研究加深了我们对空气污染与河流动态之间错综复杂联系的理解，无论是在区域范围内还是在南半球的更大范围内。它强调了保护清洁空气和水资源的世界意义。

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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River Studies

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