Airflow Dynamics over a Beach and Foredune System with Large Woody Debris

Airflow dynamics over beach-foredune systems can be complex. Although a great deal is known about the effects of topographic forcing and vegetation cover on wind-field modification, the role of large woody debris (LWD) as a roughness element and modifier of boundary layer flow is relatively understu...

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Main Authors: Michael J. Grilliot, Ian J. Walker, Bernard O. Bauer
Format: Article
Language:English
Published: MDPI AG 2018-04-01
Series:Geosciences
Subjects:
Online Access:http://www.mdpi.com/2076-3263/8/5/147
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spelling doaj-4afb3a6d622c470f9e013b9c4aaaff6b2020-11-24T23:09:08ZengMDPI AGGeosciences2076-32632018-04-018514710.3390/geosciences8050147geosciences8050147Airflow Dynamics over a Beach and Foredune System with Large Woody DebrisMichael J. Grilliot0Ian J. Walker1Bernard O. Bauer2Hakai Institute, P.O. Box 309, Heriot Bay, BC V0P 1H0, CanadaHakai Institute, P.O. Box 309, Heriot Bay, BC V0P 1H0, CanadaHakai Institute, P.O. Box 309, Heriot Bay, BC V0P 1H0, CanadaAirflow dynamics over beach-foredune systems can be complex. Although a great deal is known about the effects of topographic forcing and vegetation cover on wind-field modification, the role of large woody debris (LWD) as a roughness element and modifier of boundary layer flow is relatively understudied. Individual pieces of LWD are non-porous elements that impose bluff body effects and induce secondary flow circulation that varies with size, density, and arrangement. Large assemblages of LWD are common on beaches near forested watersheds and collectively have a degree of porosity that increases aerodynamic roughness in ways that are not fully understood. A field study on a mesotidal sandy beach with a scarped foredune (Calvert Island, British Columbia, Canada) shows that LWD influences flow patterns and turbulence levels. Overall mean and fluctuating energy decline as flow transitions across LWD, while mean energy is converted to turbulent energy. Such flow alterations have implications for sand transport pathways and resulting sedimentation patterns, primarily by inducing deposition within the LWD matrix.http://www.mdpi.com/2076-3263/8/5/147aeolian geomorphologylarge woody debrisroughness elementsbeach-dune morphodynamicsforeduneturbulencequadrant eventsultrasonic anemometry
collection DOAJ
language English
format Article
sources DOAJ
author Michael J. Grilliot
Ian J. Walker
Bernard O. Bauer
spellingShingle Michael J. Grilliot
Ian J. Walker
Bernard O. Bauer
Airflow Dynamics over a Beach and Foredune System with Large Woody Debris
Geosciences
aeolian geomorphology
large woody debris
roughness elements
beach-dune morphodynamics
foredune
turbulence
quadrant events
ultrasonic anemometry
author_facet Michael J. Grilliot
Ian J. Walker
Bernard O. Bauer
author_sort Michael J. Grilliot
title Airflow Dynamics over a Beach and Foredune System with Large Woody Debris
title_short Airflow Dynamics over a Beach and Foredune System with Large Woody Debris
title_full Airflow Dynamics over a Beach and Foredune System with Large Woody Debris
title_fullStr Airflow Dynamics over a Beach and Foredune System with Large Woody Debris
title_full_unstemmed Airflow Dynamics over a Beach and Foredune System with Large Woody Debris
title_sort airflow dynamics over a beach and foredune system with large woody debris
publisher MDPI AG
series Geosciences
issn 2076-3263
publishDate 2018-04-01
description Airflow dynamics over beach-foredune systems can be complex. Although a great deal is known about the effects of topographic forcing and vegetation cover on wind-field modification, the role of large woody debris (LWD) as a roughness element and modifier of boundary layer flow is relatively understudied. Individual pieces of LWD are non-porous elements that impose bluff body effects and induce secondary flow circulation that varies with size, density, and arrangement. Large assemblages of LWD are common on beaches near forested watersheds and collectively have a degree of porosity that increases aerodynamic roughness in ways that are not fully understood. A field study on a mesotidal sandy beach with a scarped foredune (Calvert Island, British Columbia, Canada) shows that LWD influences flow patterns and turbulence levels. Overall mean and fluctuating energy decline as flow transitions across LWD, while mean energy is converted to turbulent energy. Such flow alterations have implications for sand transport pathways and resulting sedimentation patterns, primarily by inducing deposition within the LWD matrix.
topic aeolian geomorphology
large woody debris
roughness elements
beach-dune morphodynamics
foredune
turbulence
quadrant events
ultrasonic anemometry
url http://www.mdpi.com/2076-3263/8/5/147
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