Amplification of Plunging Flows in Bedrock Canyons

Hurson, Max; Venditti, Jeremy G.; Rennie, Colin D.; Kwoll, Eva; Fairweather, Kirsti; Haught, D. R.; Kusack, Kyle M.; Church, Michael

doi:10.1029/2022gl098487

Cited by 2 publications

(32 citation statements)

References 62 publications

(100 reference statements)

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“…J. MacVicar & Rennie, 2012). This distribution of flow matches with expectations from mechanical studies of CDF (Monty et al, 2011;Simpson et al, 1981;Wu et al, 2006), but does not support field observations of fast flow near the channel bed, described by other researchers as a "high velocity core" that can plunge toward the channel bed (Booker et al, 2001;Hurson et al, 2022;W. L. Jackson & Beschta, 1982;Kang & Sotiropoulos, 2011;Keller, 1971;D.…”

contrasting

confidence: 74%

“…Another significant gap remains in the pool‐riffle literature because of the observed “skimming” flow in some laboratory experiments, where the fastest flow occurs near the water surface in the pool rather than near the channel bed (B. J. MacVicar & Best, 2013; B. J. MacVicar & Rennie, 2012). This distribution of flow matches with expectations from mechanical studies of CDF (Monty et al., 2011; Simpson et al., 1981; Wu et al., 2006), but does not support field observations of fast flow near the channel bed, described by other researchers as a “high velocity core” that can plunge toward the channel bed (Booker et al., 2001; Hurson et al., 2022; W. L. Jackson & Beschta, 1982; Kang & Sotiropoulos, 2011; Keller, 1971; D. M. Thompson et al., 1999; Venditti et al., 2014; Whiting & Dietrich, 1991). Keller (1971), for example, originally made his measurements near the bed of the pool based on the hypothesis that they would increase faster with flood stage than those higher in the flow.…”

Section: Introductionmentioning

confidence: 42%

“…First is the recent work of Hurson et al. (2022) on plunging flow in canyons. Though they noted that

{F}_{r}< 1

at all times, the physical description of the formation of a backwater upstream of the canyon indicates that the flow regime may be important for understanding the occurrence of plunging flow in some cases.…”

Section: Introductionmentioning

confidence: 99%

“…Such an effect is useful because it supports the D. M. Thompson et al (1999) model for the evacuation of material from a pool, but it does not explain plunging flow in the pool head. Plunging flow in canyon pools has been noted (Hurson et al, 2022;Venditti et al, 2014) and does not appear linked to the above cited effects.…”

mentioning

confidence: 97%

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Plunging Flow and Coherent Turbulent Structures in a Straight Pool‐Riffle

Dashtpeyma

MacVicar

2023

JGR Earth Surface

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Riffle-pools are a commonly observed undulating bed morphology in gravel-bed rivers, with the deeper areas of the river called pools and the shallower parts called riffles (D. M. Thompson & MacVicar, 2022). Researchers have observed a range of hydraulic phenomena at field sites with this morphology that are not seen in more uniformly shaped channels. One of the earliest observations, for example, noted a rapid increase in near bed velocity in a pool as flood stage increased and proposed a "velocity reversal" hypothesis in which the near bed velocity in the pool was thought to exceed that in the riffle at high flood stages (Keller, 1971). If observed in other pools, this mechanism would have provided a simple physical explanation for pool scour and maintenance, but field measurement of this mechanism is challenging and evidence has been mixed (Byrne et al., 2021;Clifford & Richards, 1992;Milan, 2013). As instrumentation improved, it became possible to measure turbulent fluctuations. Researchers noted high turbulent intensities and sometimes highly coherent turbulent structures, which led them to consider ways in which turbulent scour might impact pool formation (

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contrasting

confidence: 74%

Section: Introductionmentioning

confidence: 42%

“…First is the recent work of Hurson et al. (2022) on plunging flow in canyons. Though they noted that

{F}_{r}< 1

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 97%

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Plunging Flow and Coherent Turbulent Structures in a Straight Pool‐Riffle

Dashtpeyma

MacVicar

2023

JGR Earth Surface

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“…The local higher and lower shear stresses caused by steep near-bed velocity gradients along plunging velocity cores drive the morphology and patterns of incisions in canyons (Venditti et al, 2014). The dynamics, persistence, and occurrence of plunging flows affect the vertical bedrock incision rate (Hurson et al, 2022). turbulent kinetic energy (Blanckaert, 2015;Ferreira Da Silva & Ebrahimi, 2017).…”

Section: Introductionmentioning

confidence: 99%

Experiment on the Hydrodynamic Characteristics of Plunging Flows in Bedrock Canyon Bends

Li,

Xu,

Bai

et al. 2024

JGR Earth Surface

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Bedrock river incision drives the evolution of the Earth's landscape and is influenced by river hydraulic power. However, the relationship between plunging flows and the curvature of bedrock canyons is poorly understood, which encouraged us to explore how the bend's curvature and undulating beds affect plunging flows. A generalized physical model was built to investigate the hydrodynamic characteristics of plunging flows in a constant curvature flume with plain and undulating beds. Our experimental findings demonstrated that plunging flows were related to secondary circulation, topography, and width‐to‐depth ratios. Plunging flows occurred when secondary circulation reached its peak, and as secondary circulation vanished, the intensity of plunging flows decreased. The undulating bed topography in the bedrock bends suppressed secondary circulation and the development of plunging flows. Bed topography may be a dominant factor in plunging flows in bedrock bends. The potential erosion area in bedrock bends was related to the intensity of plunging flows, which caused velocity inversion to increase the shear stress near the bed. With higher discharges and undulating beds, the intensity of the transverse shear stress of the riverbed near the center was greater. The potential erosion area in bedrock bends was concentrated at the center of the cross‐section around the bend apex upstream. Our experimental results can improve incision models in terms of the distribution of shear stress and flow structure in bedrock bends.

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Amplification of Plunging Flows in Bedrock Canyons

Cited by 2 publications

References 62 publications

Plunging Flow and Coherent Turbulent Structures in a Straight Pool‐Riffle

Plunging Flow and Coherent Turbulent Structures in a Straight Pool‐Riffle

Experiment on the Hydrodynamic Characteristics of Plunging Flows in Bedrock Canyon Bends

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