Human impacts on sediment in the Yangtze River: A review and new perspectives

Changes in riverine suspended and riverbed sediments have environmental, ecological and social implications. Here, we provide a holistic review of water and sediment transport and examine the human impacts on the flux, concentration and size of sediment in the Yangtze River in recent decades. We fin...

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Published inGlobal and planetary change Vol. 162; pp. 8 - 17
Main Authors Yang, H.F., Yang, S.L., Xu, K.H., Milliman, J.D., Wang, H., Yang, Z., Chen, Z., Zhang, C.Y.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2018
Subjects
anthropogenic activities
basins
Grain size
gravel
Human impacts
rivers
Sediment
sediment transport
sediment yield
social impact
soil conservation
stream channels
suspended sediment
temporal variation
Three Gorges Dam
Yangtze River
Yangtze River (Changjiang)
Yangtze River
Grain size
Yangtze River (Changjiang)
Human impacts
Sediment
Three Gorges Dam
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Abstract Changes in riverine suspended and riverbed sediments have environmental, ecological and social implications. Here, we provide a holistic review of water and sediment transport and examine the human impacts on the flux, concentration and size of sediment in the Yangtze River in recent decades. We find that most of the fluvial sediment has been trapped in reservoirs, except for the finest portion. Furthermore, soil-conservation since the 1990s has reduced sediment yield. From 1956-1968 (pre-dam period) to 2013–2015 (post-dams and soil-conservation), the sediment discharge from the sub-basins decreased by 91%; in the main river, the sediment flux decreased by 99% at Xiangjiaba (upper reach), 97% at Yichang (transition between upper and middle reaches), 83% at Hankou (middle reach), and 77% at Datong (tidal limit). Because the water discharge was minimally impacted, the suspended sediment concentration decreased to the same extent as the sediment flux. Active erosion of the riverbed and coarsening of surficial sediments were observed in the middle and lower reaches. Fining of suspended sediments was identified along the river, which was counteracted by downstream erosion. Along the 700-km-long Three Gorges Reservoir, which retained 80% of the sediment from upstream, the riverbed gravel or rock was buried by mud because of sedimentation after impoundment. Along with these temporal variations, the striking spatial patterns of riverine suspended and riverbed sediments that were previously exhibited in this large basin were destroyed or reversed. Therefore, we conclude that the human impacts on sediment in the Yangtze River are strong and systematic. •Sediment flux decreased by 77%–99% in the Yangtze mainstem after dams.•Active riverbed erosion and surficial sediments coarsening were observed.•Human impact on Yangtze River sediment is basin-wide, very strong and systematic.
AbstractList Changes in riverine suspended and riverbed sediments have environmental, ecological and social implications. Here, we provide a holistic review of water and sediment transport and examine the human impacts on the flux, concentration and size of sediment in the Yangtze River in recent decades. We find that most of the fluvial sediment has been trapped in reservoirs, except for the finest portion. Furthermore, soil-conservation since the 1990s has reduced sediment yield. From 1956-1968 (pre-dam period) to 2013–2015 (post-dams and soil-conservation), the sediment discharge from the sub-basins decreased by 91%; in the main river, the sediment flux decreased by 99% at Xiangjiaba (upper reach), 97% at Yichang (transition between upper and middle reaches), 83% at Hankou (middle reach), and 77% at Datong (tidal limit). Because the water discharge was minimally impacted, the suspended sediment concentration decreased to the same extent as the sediment flux. Active erosion of the riverbed and coarsening of surficial sediments were observed in the middle and lower reaches. Fining of suspended sediments was identified along the river, which was counteracted by downstream erosion. Along the 700-km-long Three Gorges Reservoir, which retained 80% of the sediment from upstream, the riverbed gravel or rock was buried by mud because of sedimentation after impoundment. Along with these temporal variations, the striking spatial patterns of riverine suspended and riverbed sediments that were previously exhibited in this large basin were destroyed or reversed. Therefore, we conclude that the human impacts on sediment in the Yangtze River are strong and systematic. •Sediment flux decreased by 77%–99% in the Yangtze mainstem after dams.•Active riverbed erosion and surficial sediments coarsening were observed.•Human impact on Yangtze River sediment is basin-wide, very strong and systematic.
Changes in riverine suspended and riverbed sediments have environmental, ecological and social implications. Here, we provide a holistic review of water and sediment transport and examine the human impacts on the flux, concentration and size of sediment in the Yangtze River in recent decades. We find that most of the fluvial sediment has been trapped in reservoirs, except for the finest portion. Furthermore, soil-conservation since the 1990s has reduced sediment yield. From 1956-1968 (pre-dam period) to 2013–2015 (post-dams and soil-conservation), the sediment discharge from the sub-basins decreased by 91%; in the main river, the sediment flux decreased by 99% at Xiangjiaba (upper reach), 97% at Yichang (transition between upper and middle reaches), 83% at Hankou (middle reach), and 77% at Datong (tidal limit). Because the water discharge was minimally impacted, the suspended sediment concentration decreased to the same extent as the sediment flux. Active erosion of the riverbed and coarsening of surficial sediments were observed in the middle and lower reaches. Fining of suspended sediments was identified along the river, which was counteracted by downstream erosion. Along the 700-km-long Three Gorges Reservoir, which retained 80% of the sediment from upstream, the riverbed gravel or rock was buried by mud because of sedimentation after impoundment. Along with these temporal variations, the striking spatial patterns of riverine suspended and riverbed sediments that were previously exhibited in this large basin were destroyed or reversed. Therefore, we conclude that the human impacts on sediment in the Yangtze River are strong and systematic.
Author Yang, H.F.
Xu, K.H.
Milliman, J.D.
Yang, Z.
Chen, Z.
Zhang, C.Y.
Yang, S.L.
Wang, H.
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  organization: State Key Laboratory of Estuarine and Coastal Research, East China Normal University, Shanghai 200062, China
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  fullname: Milliman, J.D.
  organization: School of Marine Science, Virginia Institute of Marine Science, College of William & Mary, Gloucester Point, VA 23062, USA
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  organization: State Key Laboratory of Estuarine and Coastal Research, East China Normal University, Shanghai 200062, China
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  surname: Zhang
  fullname: Zhang, C.Y.
  organization: Survey Bureau of Hydrology and Water Resources of the Changjiang Estuary, Changjiang Water Resources Commission, Shanghai 200136, China
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Tue Jul 01 03:02:14 EDT 2025
Thu Apr 24 23:11:53 EDT 2025
Fri Feb 23 02:45:23 EST 2024
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Keywords Grain size
Yangtze River (Changjiang)
Human impacts
Sediment
Three Gorges Dam
Language English
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Snippet Changes in riverine suspended and riverbed sediments have environmental, ecological and social implications. Here, we provide a holistic review of water and...
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SubjectTerms anthropogenic activities
basins
Grain size
gravel
Human impacts
rivers
Sediment
sediment transport
sediment yield
social impact
soil conservation
stream channels
suspended sediment
temporal variation
Three Gorges Dam
Yangtze River
Yangtze River (Changjiang)
Title Human impacts on sediment in the Yangtze River: A review and new perspectives
URI https://dx.doi.org/10.1016/j.gloplacha.2018.01.001
https://www.proquest.com/docview/2053876900
Volume 162
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