Experimental study on the process of neck cutoff and channel adjustment in a highly sinuous meander under constant discharges

Experimental study on the process of neck cutoff and channel adjustment in a highly sinuous meander under constant discharges

Neck cutoff is an essential process limiting evolution of meandering rivers, in particular, the highly sinuous ones. Yet this process is extremely difficult to replicate in laboratory flumes. Here we reproduced this process in a laboratory flume by reducing at the 1/2500 scale the current planform o...

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Bibliographic Details
Published in:Geomorphology (Amsterdam, Netherlands) Vol. 327; pp. 215 - 229
Main Authors: Li, Zhiwei, Wu, Xinyu, Gao, Peng
Format: Journal Article
Language:English
Published: Elsevier B.V 15-02-2019
Subjects:
Bank erosion
Channel adjustment
Flume experiment
Meandering channel
Neck cutoff
Bank erosion
Channel adjustment
Neck cutoff
Flume experiment
Meandering channel
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Summary:Neck cutoff is an essential process limiting evolution of meandering rivers, in particular, the highly sinuous ones. Yet this process is extremely difficult to replicate in laboratory flumes. Here we reproduced this process in a laboratory flume by reducing at the 1/2500 scale the current planform of the Qigongling Bend (centerline length 13 km, channel width 1.2 km, and neck width 0.55 km) in the middle Yangtze River with geometric similarity. In five runs with different constant input discharges, hydraulic parameters (water depth, surface velocity, and slope), bank line changes, and riverbed topography were measured by flow meter and point gauges; and bank line migration and a neck cutoff process were captured by six overhead cameras mounted atop the flume. By analyzing the neck cutoff process, development of the cutoff channel, and adjustment of the old channel to cutoff, we found that (i) bank erosion around the upstream and downstream channel segments of the neck reduced its distance, subsequently increased water head gradient on both sides of the neck inducing the occurrence of neck cutoff in a short time period; (ii) the width of the new cutoff channel increased quickly after neck cutoff because the increased local slope generated a higher unit stream power in the cutoff channel; and (iii) neck cutoff significantly increased bank erosion and channel widening in upstream and downstream channels as it is a gradual process compared with chute cutoff. These results suggest that bank revetment around the Qigongling Bend might be necessary to prevent the abrupt occurrence of natural neck cutoff in the future. •Neck cutoffs are first successfully achieved in flume experiments.•Neck cutoff is controlled by bank erosion mainly caused by moderate flows.•Neck cutoff enhances bank erosion and channel widening in upstream and downstream channels.
ISSN:0169-555X
1872-695X
DOI:10.1016/j.geomorph.2018.11.002