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Predicting Groundwater Level Dynamics and Evaluating the Impact of the South-to-North Water Diversion Project Using Stacking Ensemble Learning

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Listed:
  • Hangyu Wu

    (State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research, Beijing 100038, China
    College of Water Conservancy and Hydropower Engineering, Hohai University, Nanjing 210098, China)

  • Rong Liu

    (State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research, Beijing 100038, China)

  • Chuiyu Lu

    (State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research, Beijing 100038, China)

  • Qingyan Sun

    (State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research, Beijing 100038, China)

  • Chu Wu

    (State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research, Beijing 100038, China)

  • Lingjia Yan

    (State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research, Beijing 100038, China)

  • Wen Lu

    (State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research, Beijing 100038, China)

  • Hang Zhou

    (State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research, Beijing 100038, China)

Abstract

This study aims to improve the accuracy and interpretability of deep groundwater level forecasting in Cangzhou, a typical overexploitation area in the North China Plain. To address the limitations of traditional models and existing machine learning approaches, we develop a Stacking ensemble learning framework that integrates meteorological, spatial, and anthropogenic variables, including lagged groundwater levels to reflect aquifer memory. The model combines six heterogeneous base learners with a meta-model to enhance prediction robustness. Performance evaluation shows that the ensemble model consistently outperforms individual models in accuracy, generalization, and spatial adaptability. Scenario-based simulations are further conducted to assess the effects of the South-to-North Water Diversion Project. Results indicate that the diversion project significantly mitigates groundwater depletion, with the most overexploited zones showing water level recovery of up to 17 m compared to the no-diversion scenario. Feature importance analysis confirms that lagged water levels and pumping volumes are dominant predictors, aligning with groundwater system dynamics. These findings demonstrate the effectiveness of ensemble learning in modeling complex groundwater behavior and provide a practical tool for water resource regulation. The proposed framework is adaptable to other groundwater-stressed regions and supports dynamic policy design for sustainable groundwater management.

Suggested Citation

  • Hangyu Wu & Rong Liu & Chuiyu Lu & Qingyan Sun & Chu Wu & Lingjia Yan & Wen Lu & Hang Zhou, 2025. "Predicting Groundwater Level Dynamics and Evaluating the Impact of the South-to-North Water Diversion Project Using Stacking Ensemble Learning," Sustainability, MDPI, vol. 17(13), pages 1-26, July.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:13:p:6120-:d:1694346
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    References listed on IDEAS

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    1. Xu, Yueqing & Mo, Xingguo & Cai, Yunlong & Li, Xiubin, 2005. "Analysis on groundwater table drawdown by land use and the quest for sustainable water use in the Hebei Plain in China," Agricultural Water Management, Elsevier, vol. 75(1), pages 38-53, July.
    2. Jinxia Wang & Yuting Jiang & Huimin Wang & Qiuqiong Huang & Hongbo Deng, 2020. "Groundwater irrigation and management in northern China: status, trends, and challenges," International Journal of Water Resources Development, Taylor & Francis Journals, vol. 36(4), pages 670-696, July.
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