An integrated land change modeler and distributed hydrological model approach for quantifying future urban runoff dynamics

IF 6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Asad Hussain Muhammad, Waseem Muhammad, Ajmal Muhammad, Atiq Ur Rehman Tariq Muhammad, Jiaqing Xiao, Tao Yang, Pengfei Shi
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Abstract

Climate and land use changes have a significant impact on the runoff generation process in urban environments, and these effects could get worse in the future. The combined contributions of these changes have increased the risk of flooding. Therefore, there is a need for integrated modeling to better understand the runoff variability, especially in small urban catchments. To quantify and separate the effects of land-use changes and climate change on the hydrological response of urban catchments with a distributed hydrological model (Storm Water Management Model, SWMM), this study introduces a new integrated approach based on the Machine Learning based land use change modeler and climate change scenarios under CMIP6. Based on supervised classification and land use change model analysis, accumulated impervious area increase from 22% (in 2023) to 33% (in 2060) was observed in the study area. Furthermore, integrating this projected increase in imperviousness with future climate change into SWMM by considering three different scenarios i.e., S1 (Climate Change), S2 (Combined Land Use and Climate Change), and S3 (Land use Change) resulted that climate change could cause an increase in runoff from 13.2% to 18.3% in peak runoff and the contribution of land use could range from 9.1% to 18.6%. Similarly, in response to the coupled effects of climate and land-use change, the runoff would likely change from 24.53% to 39.66%. Conclusively, the study showed that despite climate change, intensive urban development by the substitution of impervious surfaces could also have a severe impact on the microclimate and hydrology of small catchments. Lastly, this study could provide a way forward for the future planning and management of water resources in small catchments which could be extended to larger catchments.

用于量化未来城市径流动态的土地变化模型和分布式水文模型综合方法
气候和土地利用的变化对城市环境中的径流生成过程产生了重大影响,这些影响在未来可能会变得更加严重。这些变化的共同作用增加了洪水风险。因此,有必要进行综合建模,以更好地了解径流的变化,尤其是小型城市集水区的径流变化。为了利用分布式水文模型(暴雨管理模型,SWMM)量化和分离土地利用变化和气候变化对城市集水区水文响应的影响,本研究引入了一种基于机器学习的土地利用变化模型和 CMIP6 下气候变化情景的新综合方法。根据监督分类和土地利用变化模型分析,在研究区域观察到不透水面积从 22%(2023 年)累积增加到 33%(2060 年)。此外,通过考虑三种不同的情景,即 S1(气候变化)、S2(土地利用和气候变化组合)和 S3(土地利用变化),将不透水面积的预计增加与未来的气候变化整合到 SWMM 中,结果发现气候变化可能导致径流峰值增加 13.2% 至 18.3%,而土地利用的贡献可能在 9.1% 至 18.6% 之间。同样,在气候和土地利用变化的耦合效应下,径流量可能会从 24.53% 变为 39.66%。总之,该研究表明,尽管气候变化,但通过更换不透水表面进行的密集型城市发展也会对小型集水区的小气候和水文产生严重影响。最后,这项研究可为今后小型集水区的水资源规划和管理提供参考,并可推广到更大的集水区。
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来源期刊
Science China Earth Sciences
Science China Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
9.60
自引率
5.30%
发文量
135
审稿时长
3-8 weeks
期刊介绍: Science China Earth Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.
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