Impacts of Yongding River Ecological Restoration on the Groundwater Environment: Scenario Prediction

Reclaimed water was discharged into the Yongding River channels as ecological water. Pollutants from such water may leak into the underlying aquifer and put the groundwater environment at risk. River leakage estimation under different possible river lining conditions and the established groundwater...

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Main Authors: Haizhu Hu, Xiaomin Mao, Qing Yang
Format: Article
Language:English
Published: Wiley 2018-12-01
Series:Vadose Zone Journal
Online Access:https://dl.sciencesocieties.org/publications/vzj/articles/17/1/180121
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spelling doaj-4fd5188e1995494e99bf429e0396f84c2020-11-25T02:38:49ZengWileyVadose Zone Journal1539-16632018-12-0117110.2136/vzj2018.06.0121Impacts of Yongding River Ecological Restoration on the Groundwater Environment: Scenario PredictionHaizhu HuXiaomin MaoQing YangReclaimed water was discharged into the Yongding River channels as ecological water. Pollutants from such water may leak into the underlying aquifer and put the groundwater environment at risk. River leakage estimation under different possible river lining conditions and the established groundwater flow and reactive solute transport model were jointly applied to investigate the impact of the ecological restoration of the Yongding River on the local groundwater environment. Scenario-based investigations were conducted since the channel reconstruction in 2009. The results show that the seepage from the Yongding River without liners can greatly raise the groundwater level. Leakage through liners constructed with geomembranes can effectively control the seepage of water and the spread of solutes in the aquifer. From June 2009 to December 2010, the leakage amount has been only 1.65 × 10 m, and the unconfined aquifer shows a negative budget of 4.55 × 10 m. The spreading extent of flow and potential pollutants increases with the amount of leakage from the river. Water management strategies, such as the South-to-North Water Diversion Project and Yongding River restoration could help alleviate the water deficit of the Yongding River alluvium fan (YRAF) by reducing groundwater exploitation and increasing groundwater recharge. The necessity of the maintenance of riverbed liners and control of the water quality of Yongding River were highlighted by the scenario analysis. The methods applied in this study could be used for reference in the other polluted rivers, especially with liner installation.https://dl.sciencesocieties.org/publications/vzj/articles/17/1/180121
collection DOAJ
language English
format Article
sources DOAJ
author Haizhu Hu
Xiaomin Mao
Qing Yang
spellingShingle Haizhu Hu
Xiaomin Mao
Qing Yang
Impacts of Yongding River Ecological Restoration on the Groundwater Environment: Scenario Prediction
Vadose Zone Journal
author_facet Haizhu Hu
Xiaomin Mao
Qing Yang
author_sort Haizhu Hu
title Impacts of Yongding River Ecological Restoration on the Groundwater Environment: Scenario Prediction
title_short Impacts of Yongding River Ecological Restoration on the Groundwater Environment: Scenario Prediction
title_full Impacts of Yongding River Ecological Restoration on the Groundwater Environment: Scenario Prediction
title_fullStr Impacts of Yongding River Ecological Restoration on the Groundwater Environment: Scenario Prediction
title_full_unstemmed Impacts of Yongding River Ecological Restoration on the Groundwater Environment: Scenario Prediction
title_sort impacts of yongding river ecological restoration on the groundwater environment: scenario prediction
publisher Wiley
series Vadose Zone Journal
issn 1539-1663
publishDate 2018-12-01
description Reclaimed water was discharged into the Yongding River channels as ecological water. Pollutants from such water may leak into the underlying aquifer and put the groundwater environment at risk. River leakage estimation under different possible river lining conditions and the established groundwater flow and reactive solute transport model were jointly applied to investigate the impact of the ecological restoration of the Yongding River on the local groundwater environment. Scenario-based investigations were conducted since the channel reconstruction in 2009. The results show that the seepage from the Yongding River without liners can greatly raise the groundwater level. Leakage through liners constructed with geomembranes can effectively control the seepage of water and the spread of solutes in the aquifer. From June 2009 to December 2010, the leakage amount has been only 1.65 × 10 m, and the unconfined aquifer shows a negative budget of 4.55 × 10 m. The spreading extent of flow and potential pollutants increases with the amount of leakage from the river. Water management strategies, such as the South-to-North Water Diversion Project and Yongding River restoration could help alleviate the water deficit of the Yongding River alluvium fan (YRAF) by reducing groundwater exploitation and increasing groundwater recharge. The necessity of the maintenance of riverbed liners and control of the water quality of Yongding River were highlighted by the scenario analysis. The methods applied in this study could be used for reference in the other polluted rivers, especially with liner installation.
url https://dl.sciencesocieties.org/publications/vzj/articles/17/1/180121
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