Channel-form adjustment of an alluvial river under hydrodynamic and eco-geomorphologic controls: insights from applying equilibrium theory governing alluvial channel flow
Channel-form adjustment of an alluvial river under hydrodynamic and eco-geomorphologic controls: insights from applying equilibrium theory governing alluvial channel flow
Alluvial rivers commonly are subject to the integrated effects of hydrodynamic and eco-geomorphologic controls and there has been a lack of suitable methods to measure the effects. By taking the alluvial reach of the Yellow River over the Yinchuan Plain as a suitable example, this study evaluates the degree of hydrodynamic control in the channel-form adjustment of different channel patterns in light of the advances in equilibrium theory governing alluvial channel flow. In response to the significant variations in flow regime and channel forms, the non-dimensional number (Formula presented.) that measures the equilibrium state of alluvial channel flow varies in the ranges of 0.23–0.65, 0.047–0.17 and 0.0012–0.0024 respectively in the anabranching, meandering and braided reaches during 1993–2015. The significant differences among the H-ranges are mainly because the individual anabranches have neither very narrow nor very deep cross-sections, while the single-thread channels in the meandering and braided reaches take moderately and significantly wider and shallower cross-sections, respectively. These results demonstrate that the (Formula presented.) number is a good discriminator of river channel patterns, and the relatively small variability of (Formula presented.) within each channel pattern implies that the channels in the study reach are resilient to significant change in flow regime but yet hydrodynamic control is only partial. While the (Formula presented.) number is capable of embodying the outcome of the complex integrated effects of multiple localized eco-geomorphic controls with flow dynamics, more studies are required to define its specific varying ranges for different river channel patterns and differing eco-geomorphic controls.
River channel-form adjustment; River channel patterns; Hydrodynamic control; Eco-geomorphologic controls; Equilibrium theory; Yellow River.
Su, Teng
70486216-be63-42ca-a78d-db27fb1ab692
Huang, He Qing
09aac111-fc3f-48a0-91ac-1bebca3d36fc
Carling, Paul
8d252dd9-3c88-4803-81cc-c2ec4c6fa687
Yu, Guoan
1d4c644e-197c-42c9-9684-983adc33c79d
Nanson, Gerald
f6d8a6ae-8b3a-4a0b-954a-0b15658cabff
November 2021
Su, Teng
70486216-be63-42ca-a78d-db27fb1ab692
Huang, He Qing
09aac111-fc3f-48a0-91ac-1bebca3d36fc
Carling, Paul
8d252dd9-3c88-4803-81cc-c2ec4c6fa687
Yu, Guoan
1d4c644e-197c-42c9-9684-983adc33c79d
Nanson, Gerald
f6d8a6ae-8b3a-4a0b-954a-0b15658cabff
Su, Teng, Huang, He Qing, Carling, Paul, Yu, Guoan and Nanson, Gerald
(2021)
Channel-form adjustment of an alluvial river under hydrodynamic and eco-geomorphologic controls: insights from applying equilibrium theory governing alluvial channel flow.
Water Resources Research, 57 (11), [e2020WR029174].
(doi:10.1029/2020WR029174).
Abstract
Alluvial rivers commonly are subject to the integrated effects of hydrodynamic and eco-geomorphologic controls and there has been a lack of suitable methods to measure the effects. By taking the alluvial reach of the Yellow River over the Yinchuan Plain as a suitable example, this study evaluates the degree of hydrodynamic control in the channel-form adjustment of different channel patterns in light of the advances in equilibrium theory governing alluvial channel flow. In response to the significant variations in flow regime and channel forms, the non-dimensional number (Formula presented.) that measures the equilibrium state of alluvial channel flow varies in the ranges of 0.23–0.65, 0.047–0.17 and 0.0012–0.0024 respectively in the anabranching, meandering and braided reaches during 1993–2015. The significant differences among the H-ranges are mainly because the individual anabranches have neither very narrow nor very deep cross-sections, while the single-thread channels in the meandering and braided reaches take moderately and significantly wider and shallower cross-sections, respectively. These results demonstrate that the (Formula presented.) number is a good discriminator of river channel patterns, and the relatively small variability of (Formula presented.) within each channel pattern implies that the channels in the study reach are resilient to significant change in flow regime but yet hydrodynamic control is only partial. While the (Formula presented.) number is capable of embodying the outcome of the complex integrated effects of multiple localized eco-geomorphic controls with flow dynamics, more studies are required to define its specific varying ranges for different river channel patterns and differing eco-geomorphic controls.
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WRR-manuscript-ACCEPTED
- Accepted Manuscript
More information
Accepted/In Press date: 22 October 2021
e-pub ahead of print date: 24 October 2021
Published date: November 2021
Additional Information:
Funding Information:
This work was supported financially by the National Key Research and Development Program of China (Grant No. 2016YFC0402502), the National Natural Science Foundation of China (Grant No. 41561144012), and the China Postdoctoral Science Foundation (Grant No. 2020M670435). The authors would like to thank the Yellow River Water Conservancy Commission and Ningxia Water Conservancy and Hydropower Survey Design & Research Institute Co., Ltd. of China for permission to access the measured hydrological and river cross‐sectional data. All photographs presented in Figures 3 and 11 on the channel banks of the YPR were taken by Dr. Suiji Wang in 2016. Particular thanks are given to anonymous reviewers, associate editor and Ellen Wohl for their valuable review comments, which significantly enhance the quality of this paper.
Funding Information:
This work was supported financially by the National Key Research and Development Program of China (Grant No. 2016YFC0402502), the National Natural Science Foundation of China (Grant No. 41561144012), and the China Postdoctoral Science Foundation (Grant No. 2020M670435). The authors would like to thank the Yellow River Water Conservancy Commission and Ningxia Water Conservancy and Hydropower Survey Design & Research Institute Co., Ltd. of China for permission to access the measured hydrological and river cross-sectional data. All photographs presented in Figures?3 and?11 on the channel banks of the YPR were taken by Dr. Suiji Wang in 2016. Particular thanks are given to anonymous reviewers, associate editor and Ellen Wohl for their valuable review comments, which significantly enhance the quality of this paper.
Publisher Copyright:
© 2021. American Geophysical Union. All Rights Reserved.
Keywords:
River channel-form adjustment; River channel patterns; Hydrodynamic control; Eco-geomorphologic controls; Equilibrium theory; Yellow River.
Identifiers
Local EPrints ID: 452519
URI: http://eprints.soton.ac.uk/id/eprint/452519
ISSN: 0043-1397
PURE UUID: 8768009c-77f9-4c0f-bfe5-fe572c9c4fc3
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Date deposited: 11 Dec 2021 11:25
Last modified: 16 Mar 2024 14:30
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Author:
Teng Su
Author:
He Qing Huang
Author:
Guoan Yu
Author:
Gerald Nanson
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