Mega dam-induced riverbed erosion exacerbates drought effects on river water surface elevation
Mega dam-induced riverbed erosion exacerbates drought effects on river water surface elevation
By regulating the seasonal flow discharge, dams are frequently used to augment downstream flow discharges and water surface elevations in dry season periods.However, dams also typically generate severe bed incision in their downstream reaches, which whilst not reducing the volume of flow passing through the channel,can nevertheless reduce water surface elevations. Such reductions in water surface elevations can make it more difficult to access available water in the river in instances where they drop substantially below the levels of water intake structures. Here, we evaluate the extent to which dam-induced incision downstream of the Three GorgesDam (TGD) contributes to falling water surface elevations during the 2019 dry sea-son (December to February), which was a period characterized by extremely low water surface elevations along the mid-lower reaches of the Changjiang River. Our results indicate that the 2019 dry season exhibited the second lowest water surface elevation ever recorded in the middle Changjiang even though the flow discharge was actually larger than in previous dry seasons. The 2019 event was found to be characterized by a sharp fall of water surface elevation, caused by TGD-induced downstream channel narrowing and bed incision. Thus, whilst TGD releases did augment flows during the 2019 dry season, channel degradation resulted in a substantial net lowering of water surface elevations. Consequently, the overall impact of the TGD on dry season water surface elevations was to aggravate (not mitigate) low water surface elevations experienced along the Changjiang River. Our study has relevance for other major dam-altered rivers that experience extreme low water surface elevations in dry periods.
Changjiang River, dam regulation, low water surface elevation, riverbed erosion, Three Gorges Dam
Mei, Xuefei
f4a2184d-4208-4b22-8eb9-8d19880f54aa
Dai, Zhijun
518bc4ef-716d-461d-a781-a3e5b4d04ba7
Du, Jinzhou
f06f7107-00c7-45b3-b6be-4a32777e9077
Darby, Stephen
4c3e1c76-d404-4ff3-86f8-84e42fbb7970
June 2023
Mei, Xuefei
f4a2184d-4208-4b22-8eb9-8d19880f54aa
Dai, Zhijun
518bc4ef-716d-461d-a781-a3e5b4d04ba7
Du, Jinzhou
f06f7107-00c7-45b3-b6be-4a32777e9077
Darby, Stephen
4c3e1c76-d404-4ff3-86f8-84e42fbb7970
Mei, Xuefei, Dai, Zhijun, Du, Jinzhou and Darby, Stephen
(2023)
Mega dam-induced riverbed erosion exacerbates drought effects on river water surface elevation.
Hydrological Processes, 37 (6), [e14917].
(doi:10.1002/hyp.14917).
Abstract
By regulating the seasonal flow discharge, dams are frequently used to augment downstream flow discharges and water surface elevations in dry season periods.However, dams also typically generate severe bed incision in their downstream reaches, which whilst not reducing the volume of flow passing through the channel,can nevertheless reduce water surface elevations. Such reductions in water surface elevations can make it more difficult to access available water in the river in instances where they drop substantially below the levels of water intake structures. Here, we evaluate the extent to which dam-induced incision downstream of the Three GorgesDam (TGD) contributes to falling water surface elevations during the 2019 dry sea-son (December to February), which was a period characterized by extremely low water surface elevations along the mid-lower reaches of the Changjiang River. Our results indicate that the 2019 dry season exhibited the second lowest water surface elevation ever recorded in the middle Changjiang even though the flow discharge was actually larger than in previous dry seasons. The 2019 event was found to be characterized by a sharp fall of water surface elevation, caused by TGD-induced downstream channel narrowing and bed incision. Thus, whilst TGD releases did augment flows during the 2019 dry season, channel degradation resulted in a substantial net lowering of water surface elevations. Consequently, the overall impact of the TGD on dry season water surface elevations was to aggravate (not mitigate) low water surface elevations experienced along the Changjiang River. Our study has relevance for other major dam-altered rivers that experience extreme low water surface elevations in dry periods.
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Accepted/In Press date: 23 May 2023
e-pub ahead of print date: 6 June 2023
Published date: June 2023
Keywords:
Changjiang River, dam regulation, low water surface elevation, riverbed erosion, Three Gorges Dam
Identifiers
Local EPrints ID: 477545
URI: http://eprints.soton.ac.uk/id/eprint/477545
ISSN: 1099-1085
PURE UUID: a400ce8d-8216-47f0-87b1-4e5db05705e7
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Date deposited: 08 Jun 2023 16:36
Last modified: 17 Mar 2024 02:46
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Author:
Xuefei Mei
Author:
Zhijun Dai
Author:
Jinzhou Du
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