TY - BOOK ID - 135867751 TI - River Ecological Restoration and Groundwater Artificial Recharge AU - Zhai, Yuanzheng AU - Wu, Jin AU - Wang, Huaqing PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - influence radius KW - Dupuit KW - Thiem KW - groundwater flow system KW - sustainable development KW - hydrogeochemistry KW - ionic ratios KW - factor analysis KW - inverse modeling KW - Yangtze River KW - water resources carrying capacity KW - uncertainty analysis KW - fuzzy comprehensive evaluation model KW - weight sensitivity analysis KW - Yongding River KW - groundwater numerical simulation KW - artificial ecological water supplement KW - groundwater recharge resources amount evaluation KW - alga control KW - typical biological chain KW - Ecopath model KW - ecological restoration KW - Lianshi Lake KW - Songnen Plain KW - groundwater KW - fluorine KW - distribution KW - formation KW - human health risk KW - groundwater quality KW - groundwater hydrochemistry KW - drinking suitability KW - irrigation suitability KW - health risk assessment KW - watershed ecological security assessment KW - DPSIR model framework KW - environmental management KW - water allocation KW - brackish water KW - general algebraic modeling system KW - water diversion project KW - numerical simulation KW - MODFLOW KW - n/a UR - https://www.unicat.be/uniCat?func=search&query=sysid:135867751 AB - Three of the eleven papers focused on groundwater recharge and its impacts on the groundwater regime, in which recharge was caused by riverbed leakage from river ecological restoration (artificial water replenishment). The issues of the hydrogeological parameters involved (such as the influence radius) were also reconsidered. Six papers focused on the impact of river ecological replenishment and other human activities on river and watershed ecology, and on groundwater quality and use function. The issues of ecological security at the watershed scale and deterioration of groundwater quality were of particular concern. Two papers focused on water resources carrying capacity and water resources reallocation at the regional scale, in the context of the fact that ecological water demand has been a significant topic of concern. The use of unconventional water resources such as brackish water has been emphasized in the research in this issue. ER -