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Response of Han River Estuary Discharge to Hydrological Process Changes in the Tributary–Mainstem Confluence Zone

Author

Listed:
  • Shuo Ouyang

    (Department of Water Resources, Bureau of Hydrology, Changjiang Water Resources Commission, Wuhan 430010, China)

  • Changjiang Xu

    (Department of Water Resources, Bureau of Hydrology, Changjiang Water Resources Commission, Wuhan 430010, China)

  • Weifeng Xu

    (Department of Water Resources, Bureau of Hydrology, Changjiang Water Resources Commission, Wuhan 430010, China)

  • Junhong Zhang

    (Key Laboratory of Resources Conversion and Pollution Control of the State Ethnic Affairs Commission, College of Resources and Environmental Science, South-Central Minzu University, Wuhan 430074, China)

  • Weiya Huang

    (Key Laboratory of Resources Conversion and Pollution Control of the State Ethnic Affairs Commission, College of Resources and Environmental Science, South-Central Minzu University, Wuhan 430074, China)

  • Cuiping Yang

    (Key Laboratory of Resources Conversion and Pollution Control of the State Ethnic Affairs Commission, College of Resources and Environmental Science, South-Central Minzu University, Wuhan 430074, China)

  • Yao Yue

    (Key Laboratory of Resources Conversion and Pollution Control of the State Ethnic Affairs Commission, College of Resources and Environmental Science, South-Central Minzu University, Wuhan 430074, China)

Abstract

This study investigates the dynamic response mechanisms of discharge capacity in the Han River Estuary to hydrological process changes at the Yangtze–Han River confluence. By constructing a one-dimensional hydrodynamic model for the 265 km Xinglong–Hankou reach, we quantitatively decouple the synergistic effects of riverbed scouring (mean annual incision rate: 0.12 m) and Three Gorges Dam (TGD) operation through four orthogonal scenarios. Key findings reveal: (1) Riverbed incision dominates discharge variation (annual mean contribution >84%), enhancing flood conveyance efficiency with a peak flow increase of 21.3 m 3 /s during July–September; (2) TGD regulation exhibits spatiotemporal intermittency, contributing 25–36% during impoundment periods (September–October) by reducing Yangtze backwater effects; (3) Nonlinear interactions between drivers reconfigure flow paths—antagonism occurs at low confluence ratios (R < 0.15, e.g., Cd increases to 45 under TGD but decreases to 8 under incision), while synergy at high ratios (R > 0.25) reduces Hanchuan Station flow by 13.84 m 3 /s; (4) The 180–265 km confluence-proximal zone is identified as a sensitive area, where coupled drivers amplify water surface gradients to −1.41 × 10 −3 m/km (2.3× upstream) and velocity increments to 0.0027 m/s. The proposed “Natural/Anthropogenic Dual-Stressor Framework” elucidates estuary discharge mechanisms under intensive human interference, providing critical insights for flood control and trans-basin water resource management in tide-free estuaries globally.

Suggested Citation

  • Shuo Ouyang & Changjiang Xu & Weifeng Xu & Junhong Zhang & Weiya Huang & Cuiping Yang & Yao Yue, 2025. "Response of Han River Estuary Discharge to Hydrological Process Changes in the Tributary–Mainstem Confluence Zone," Sustainability, MDPI, vol. 17(14), pages 1-14, July.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:14:p:6507-:d:1702753
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    References listed on IDEAS

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    1. Tao Bai & Lei Li & Peng-fei Mu & Bao-zhu Pan & Jin Liu, 2023. "Impact of Climate Change on Water Transfer Scale of Inter-basin Water Diversion Project," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 37(6), pages 2505-2525, May.
    2. Hesham Abd-El Monsef & Scot Smith & Kamal Darwish, 2015. "Impacts of the Aswan High Dam After 50 Years," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 29(6), pages 1873-1885, April.
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