Identification of the correlation between land subsidence and groundwater level in Cangzhou, North China Plain, based on time-series PS-InSAR and machine-learning approaches

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Hydrogeology Journal Pub Date : 2024-02-06 DOI:10.1007/s10040-024-02771-5
Mouigni Baraka Nafouanti, Junxia Li, Hexue Li, Mbega Ramadhani Ngata, Danyang Sun, Yihong Huang, Chuanfu Zhou, Lu Wang, Edwin E. Nyakilla
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Abstract

Land deformation is a severe environmental problem that is often caused by groundwater overexploitation. Traditional approaches, such as those based on ground leveling, are used as standard for monitoring land deformation, but they cannot collect enough information for land-deformation mapping. In this study, the time-series Persistent Scatterer Interferometry Synthetic Aperture Radar (PS-InSAR) was used as an improved method to identify land deformation in Cangzhou after the initiation of China’s South-to-North Water Diversion Project (SNWDP). Machine learning (ML) models, including random forest and k-nearest neighbor, were used to determine the relationship between groundwater pressure and land deformation. The results showed that from 2018 to 2022, the deformation rate was up to –115 mm/year in Nanpi and Dongguang and varied between –57 and –26 mm/year in Qingxian and Cangxian. Land deformation after the SNWDP implementation was less than before. The ML models’ results show that the accuracy of the random forest and k-nearest neighbor methods were 85 and 77%, respectively. Evaluation of the groundwater-level trend measured in six wells showed that after the SNWDP implementation, the groundwater pressure started to recover in Cangzhou, but a decline has been observed recently, particularly in 2022. The mean decrease in impurity (MDI) values demonstrates that aquifers IV and III contribute the most to land deformation in Cangzhou, with the highest MDI values of 33 and 26%, respectively. The study provides new insights into the evolution of regional land deformation, and the methods employed in this research can be adopted in other regions with similar conditions.

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基于时间序列 PS-InSAR 和机器学习方法的华北平原沧州地区地面沉降与地下水位相关性识别
土地变形是一个严重的环境问题,通常由地下水过度开采引起。传统方法(如基于地面平整的方法)被用作监测土地变形的标准,但它们无法为土地变形绘图收集足够的信息。本研究使用时间序列持久散射体干涉测量合成孔径雷达(PS-InSAR)作为一种改进方法来识别中国南水北调工程(SNWDP)启动后沧州的土地变形。利用随机森林和 k-nearest neighbor 等机器学习(ML)模型确定地下水压力与土地变形之间的关系。结果表明,从 2018 年到 2022 年,南皮和东光的变形率高达-115 毫米/年,青县和沧县的变形率介于-57 和-26 毫米/年之间。SNWDP实施后的土地变形比实施前要小。ML 模型的结果表明,随机森林法和 k 最近邻法的准确率分别为 85% 和 77%。对 6 口水井的地下水位变化趋势的评估表明,SNWDP 实施后,沧州地区的地下水压力开始恢复,但近期出现了下降,尤其是在 2022 年。杂质平均下降值(MDI)表明,含水层 IV 和 III 对沧州土地变形的影响最大,MDI 值最高,分别为 33% 和 26%。本研究为了解区域土地变形的演变提供了新的视角,本研究采用的方法可用于其他条件相似的地区。
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来源期刊
Hydrogeology Journal
Hydrogeology Journal 地学-地球科学综合
CiteScore
5.40
自引率
7.10%
发文量
128
审稿时长
6 months
期刊介绍: Hydrogeology Journal was founded in 1992 to foster understanding of hydrogeology; to describe worldwide progress in hydrogeology; and to provide an accessible forum for scientists, researchers, engineers, and practitioners in developing and industrialized countries. Since then, the journal has earned a large worldwide readership. Its peer-reviewed research articles integrate subsurface hydrology and geology with supporting disciplines: geochemistry, geophysics, geomorphology, geobiology, surface-water hydrology, tectonics, numerical modeling, economics, and sociology.
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