James Bomhof scite author profile

Bedrock erosion in rivers sets the pace of landscape evolution, influences the evolution of orogens and determines the size, shape and relief of mountains. A variety of models link fluid flow and sediment transport processes to bedrock incision in canyons. The model components that represent sediment transport processes are increasingly well developed. In contrast, the model components being used to represent fluid flow are largely untested because there are no observations of the flow structure in bedrock canyons. Here we present a 524-kilometre, continuous centreline, acoustic Doppler current profiler survey of the Fraser Canyon in western Canada, which includes 42 individual bedrock canyons. Our observations of three-dimensional flow structure reveal that, as water enters the canyons, a high-velocity core follows the bed surface, causing a velocity inversion (high velocities near the bed and low velocities at the surface). The plunging water then upwells along the canyon walls, resulting in counter-rotating, along-stream coherent flow structures that diverge near the bed. The resulting flow structure promotes deep scour in the bedrock channel floor and undercutting of the canyon walls. This provides a mechanism for channel widening and ensures that the base of the walls is swept clear of the debris that is often deposited there, keeping the walls nearly vertical. These observations reveal that the flow structure in bedrock canyons is more complex than assumed in the models presently used. Fluid flow models that capture the essence of the three-dimensional flow field, using simple phenomenological rules that are computationally tractable, are required to capture the dynamic coupling between flow, bedrock erosion and solid-Earth dynamics.

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Towards harmonisation of image velocimetry techniques for river surface velocity observations

Perks

Sasso

Hauet³

et al. 2020

Earth Syst. Sci. Data

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Abstract. Since the turn of the 21st century, image-based velocimetry techniques have become an increasingly popular approach for determining open-channel flow in a range of hydrological settings across Europe and beyond. Simultaneously, a range of large-scale image velocimetry algorithms have been developed that are equipped with differing image pre-processing and analytical capabilities. Yet in operational hydrometry, these techniques are utilised by few competent authorities. Therefore, imagery collected for image velocimetry analysis (along with reference data) is required both to enable inter-comparisons between these differing approaches and to test their overall efficacy. Through benchmarking exercises, it will be possible to assess which approaches are best suited for a range of fluvial settings, and to focus future software developments. Here we collate and describe datasets acquired from seven countries across Europe and North America, consisting of videos that have been subjected to a range of pre-processing and image velocimetry analyses (Perks et al., 2020, https://doi.org/10.4121/uuid:014d56f7-06dd-49ad-a48c-2282ab10428e). Reference data are available for 12 of the 13 case studies presented, enabling these data to be used for reference and accuracy assessment.

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Use of Local Soil and Vegetation Classifications to Improve Regional Downstream Hydraulic Geometry Relations

Bomhof¹,

Rennie

Jenkinson

2015

J. Hydraul. Eng.

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Comparing single and multi-objective hydrologic model calibration considering reservoir inflow and streamflow observations

Bomhof¹,

Tolson

Kouwen

2019

Canadian Water Resources Journal / Revue canadienne des ressour

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Estimating Flow, Hydraulic Geometry, and Hydrokinetic Power at Ungauged Locations in Canada

Bomhof¹

2014

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James Bomhof

Flow in bedrock canyons

Towards harmonisation of image velocimetry techniques for river surface velocity observations

Use of Local Soil and Vegetation Classifications to Improve Regional Downstream Hydraulic Geometry Relations

Comparing single and multi-objective hydrologic model calibration considering reservoir inflow and streamflow observations

Estimating Flow, Hydraulic Geometry, and Hydrokinetic Power at Ungauged Locations in Canada

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