Landscape fragmentation of built-up land significantly impact on water quality in the Yellow River Basin.

IF 8 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Journal of Environmental Management Pub Date : 2024-11-11 DOI:10.1016/j.jenvman.2024.123232
Jinghui Dou, Rui Xia, Kai Zhang, Chao Xu, Yan Chen, Xiaoyu Liu, Xikang Hou, Yingze Yin, Lina Li
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Abstract

Urbanization development often leads to significant changes in the extent in area and fragmentation of built-up land landscape pattern (BLLP) in river basins, which greatly impact the processes of rainfall runoff and pollutant migration. Understanding the spatial scale effects and driving mechanisms of BLLP changes on water quality in large river basins is a challenging research topic and an international frontier in the interdisciplinary fields of geography and environment. This study analyzes the spatial variations of BLLP and water quality throughout the Yellow River Basin (YRB) during the rainy seasons from 2019 to 2021 (4 h scale). Utilized the random forest model to quantitatively separates the contributions of rainfall processes to surface runoff and water pollution, revealing the scale effects and non-linear driving mechanisms of BLLP impacts on water environment changes. The results indicate that: 1) The YRB exhibits great spatial heterogeneity in terms of both BLLP and water quality, with places with lower water quality displaying bigger areas and higher degrees of BLLP fragmentation. 2) The patch density and built-up land area (PD.B and CA.B) have a major impact on changes in water quality in the YRB, with notable impacts noted in circular buffer zones with radii of 20 km and 5 km, respectively. 3) PD.B is sensitive to water quality in the YRB, explaining 39.1%-49.5% of the variance under different rainfall conditions, and exhibits a significant non-linear relationship, with an impact threshold of 0.38 (n/100 ha). The study suggests that for large-scale regions like the YRB, the degree of BLLP fragmentation is more likely to lead to degradation of water environmental quality compared to its area. BLLP fragmentation due to higher PD.B and CA.B disrupts the original ecosystem and hydrological connectivity, resulting in poorer retention and filtration of pollutants carried by rainfall runoff, while increasing the export of other pollutants. However, once urbanization surpasses a certain threshold, the BLLP fragmentation can enhance water quality by reducing the impermeable surface connectivity, as they are no longer impacted by expanding areas. To achieve ecologically sustainable development, it is necessary to apply rational landscape management and water resource management policies that consider the dual process of how BLLP fragmentation affects the water environment.

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建筑用地的景观破碎化对黄河流域的水质造成了严重影响。
城市化发展往往会导致流域内建成区景观格局(BLLP)的面积范围和破碎化程度发生显著变化,从而对降雨径流和污染物迁移过程产生巨大影响。了解建成区地貌景观格局变化对大流域水质的空间尺度效应和驱动机制,是地理与环境交叉学科领域极具挑战性的国际前沿研究课题。本研究分析了黄河流域2019-2021年雨季(4 h尺度)BLP与水质的空间变化。利用随机森林模型定量分离了降雨过程对地表径流和水污染的贡献,揭示了BLLP对水环境变化影响的尺度效应和非线性驱动机制。结果表明1)长三角地区的水体径流和水质在空间上表现出很大的异质性,水质较差的地方面积更大,水体径流破碎程度更高。2) 斑块密度和建成区面积(PD.B 和 CA.B)对长三角地区的水质变化有重大影响,半径分别为 20 千米和 5 千米的环形缓冲区受到的影响显著。3)PD.B 对 YRB 的水质很敏感,在不同降雨条件下可解释 39.1%-49.5%的方差,并表现出显著的非线性关系,影响阈值为 0.38(n/100 公顷)。研究表明,对于像长三角地区这样的大尺度区域,BLLP 破碎程度与其面积相比,更有可能导致水环境质量退化。由于较高的 PD.B 和 CA.B 导致的 BLLP 破碎化破坏了原有的生态系统和水文连通性,导致对降雨径流携带的污染物的截留和过滤能力较差,同时增加了其他污染物的输出。然而,一旦城市化超过一定的临界值,BLLP 分割就可以通过减少不透水表面的连通性来提高水质,因为它们不再受到不断扩大的区域的影响。为实现生态可持续发展,有必要采用合理的景观管理和水资源管理政策,考虑 BLLP 破碎化如何影响水环境的双重过程。
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来源期刊
Journal of Environmental Management
Journal of Environmental Management 环境科学-环境科学
CiteScore
13.70
自引率
5.70%
发文量
2477
审稿时长
84 days
期刊介绍: The Journal of Environmental Management is a journal for the publication of peer reviewed, original research for all aspects of management and the managed use of the environment, both natural and man-made.Critical review articles are also welcome; submission of these is strongly encouraged.
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