Fluvial sediment transfer in the Changjiang (Yangtze) river-estuary depositional system
Fluvial sediment transfer in the Changjiang (Yangtze) river-estuary depositional system
Knowledge of the transfer of sediment through river systems is essential for understanding the physical, chemical and biological processes on the Earth’s surface. A holistic analysis of long-term records of water discharge, sediment transport, riverbed morphology and estuarine hydrology is here used to quantify spatial and temporal variations in fluvial sediment fluxes along the Changjiang River. We show that the establishment of the Three Gorges Dam (TGD) has directly changed the fluvial sediment-transport process by annually trapping 1.23 × 10^8 t of sediment. The upper Changjiang reach has switched from being the main sediment source before 2003 to a depositional sink of fluvial sediment subsequently. The major lakes, such as Dongting Lake and Poyang Lake, have shifted from being local sediment sinks before 2003 to sediment sources thereafter, such that they now provide sediment to the Changjiang River. Since the 2003 closure of the TGD the riverbed of the middle-lower Changjiang has become the major source of sediment being transmitted downstream, now providing almost 50% of the material entering the estuary. Shoals in the estuarine channels and landward sediment transport from the sea have become major sediment sources for the river estuary. We conclude that dams currently in preparation along the upper Changjiang reach and adjacent lakes may cause the cessation of sediment supply to downstream reaches. Rising sea levels and frequent storms may terminate landward sediment transport, increasing estuarine erosion and inducing seaward sediment transport. It can therefore be expected that substantial erosion could occur in the near future in the Changjiang estuary system.
719-734
Dai, Zhijun
518bc4ef-716d-461d-a781-a3e5b4d04ba7
Mei, Xuefei
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Darby, Stephen E.
4c3e1c76-d404-4ff3-86f8-84e42fbb7970
Lou, Yaying
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Li, Weihua
e2555036-0e48-425a-afeb-db6ffba5238e
November 2018
Dai, Zhijun
518bc4ef-716d-461d-a781-a3e5b4d04ba7
Mei, Xuefei
f4a2184d-4208-4b22-8eb9-8d19880f54aa
Darby, Stephen E.
4c3e1c76-d404-4ff3-86f8-84e42fbb7970
Lou, Yaying
b5786486-c304-4e2a-a5b1-4b262de76df4
Li, Weihua
e2555036-0e48-425a-afeb-db6ffba5238e
Dai, Zhijun, Mei, Xuefei, Darby, Stephen E., Lou, Yaying and Li, Weihua
(2018)
Fluvial sediment transfer in the Changjiang (Yangtze) river-estuary depositional system.
Journal of Hydrology, 566, .
(doi:10.1016/j.jhydrol.2018.09.019).
Abstract
Knowledge of the transfer of sediment through river systems is essential for understanding the physical, chemical and biological processes on the Earth’s surface. A holistic analysis of long-term records of water discharge, sediment transport, riverbed morphology and estuarine hydrology is here used to quantify spatial and temporal variations in fluvial sediment fluxes along the Changjiang River. We show that the establishment of the Three Gorges Dam (TGD) has directly changed the fluvial sediment-transport process by annually trapping 1.23 × 10^8 t of sediment. The upper Changjiang reach has switched from being the main sediment source before 2003 to a depositional sink of fluvial sediment subsequently. The major lakes, such as Dongting Lake and Poyang Lake, have shifted from being local sediment sinks before 2003 to sediment sources thereafter, such that they now provide sediment to the Changjiang River. Since the 2003 closure of the TGD the riverbed of the middle-lower Changjiang has become the major source of sediment being transmitted downstream, now providing almost 50% of the material entering the estuary. Shoals in the estuarine channels and landward sediment transport from the sea have become major sediment sources for the river estuary. We conclude that dams currently in preparation along the upper Changjiang reach and adjacent lakes may cause the cessation of sediment supply to downstream reaches. Rising sea levels and frequent storms may terminate landward sediment transport, increasing estuarine erosion and inducing seaward sediment transport. It can therefore be expected that substantial erosion could occur in the near future in the Changjiang estuary system.
Text
HYDROL_S_18_02211
- Accepted Manuscript
More information
Accepted/In Press date: 8 September 2018
e-pub ahead of print date: 10 September 2018
Published date: November 2018
Identifiers
Local EPrints ID: 425047
URI: http://eprints.soton.ac.uk/id/eprint/425047
ISSN: 0022-1694
PURE UUID: 58177d38-6824-493d-be7e-85cb319e4c02
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Date deposited: 09 Oct 2018 16:30
Last modified: 16 Mar 2024 07:08
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Author:
Zhijun Dai
Author:
Xuefei Mei
Author:
Yaying Lou
Author:
Weihua Li
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