Bedform evolution in a tidal inlet referred from wavelet analysis

Serena Fraccascia; Christian Winter; Verner Brandbyge Ernstsen; Dierk Hebbeln

Bedform evolution in a tidal inlet referred from wavelet analysis

Serena Fraccascia, Christian Winter, Verner Brandbyge Ernstsen, Dierk Hebbeln

Geology

Abstract

Bedforms are common morphological features in subaqueous and aeolian environments and their characterization is commonly the first step to better understand forcing factors acting in the system. The aim of this study was to investigate the spectral characteristics of compound bedforms in a tidal inlet and evaluate how they changed over consecutive years, when morphology was modified and bedforms migrated. High resolution bathymetric data from the Grådyb tidal inlet channel (Danish Wadden Sea) from seven years from 2002 to 2009 (not in 2004) were analyzed. Continuous wavelet transform of bed elevation profiles along a 1600 m long transect across compound bedforms was performed using a Morlet wavelet. The results of this approach showed that the spectrum of compound bedforms in the Grådyb channel is formed by four dominant wavelengths, with mean values of 132, 84, 46 and 6 m respectively, at 95% confidence level. A comparison of annual wavelet power spectra and global wavelet spectra revealed that their occurrence is consistent over the whole analyzed period.

Original language	English
Journal	Journal of Coastal Research
Volume	SI64
Pages (from-to)	751-755
Number of pages	5
ISSN	0749-0208
Publication status	Published - 2011

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Cite this

@article{410f3acf335f4039a5f6f81b48922d75,

title = "Bedform evolution in a tidal inlet referred from wavelet analysis",

abstract = "Bedforms are common morphological features in subaqueous and aeolian environments and their characterization is commonly the first step to better understand forcing factors acting in the system. The aim of this study was to investigate the spectral characteristics of compound bedforms in a tidal inlet and evaluate how they changed over consecutive years, when morphology was modified and bedforms migrated. High resolution bathymetric data from the Gr{\aa}dyb tidal inlet channel (Danish Wadden Sea) from seven years from 2002 to 2009 (not in 2004) were analyzed. Continuous wavelet transform of bed elevation profiles along a 1600 m long transect across compound bedforms was performed using a Morlet wavelet. The results of this approach showed that the spectrum of compound bedforms in the Gr{\aa}dyb channel is formed by four dominant wavelengths, with mean values of 132, 84, 46 and 6 m respectively, at 95% confidence level. A comparison of annual wavelet power spectra and global wavelet spectra revealed that their occurrence is consistent over the whole analyzed period.",

author = "Serena Fraccascia and Christian Winter and Ernstsen, {Verner Brandbyge} and Dierk Hebbeln",

year = "2011",

language = "English",

volume = "SI64",

pages = "751--755",

journal = "Journal of Coastal Research",

issn = "0749-0208",

publisher = "Coastal Education & Research Foundation, Inc",

}

TY - JOUR

T1 - Bedform evolution in a tidal inlet referred from wavelet analysis

AU - Fraccascia, Serena

AU - Winter, Christian

AU - Ernstsen, Verner Brandbyge

AU - Hebbeln, Dierk

PY - 2011

Y1 - 2011

N2 - Bedforms are common morphological features in subaqueous and aeolian environments and their characterization is commonly the first step to better understand forcing factors acting in the system. The aim of this study was to investigate the spectral characteristics of compound bedforms in a tidal inlet and evaluate how they changed over consecutive years, when morphology was modified and bedforms migrated. High resolution bathymetric data from the Grådyb tidal inlet channel (Danish Wadden Sea) from seven years from 2002 to 2009 (not in 2004) were analyzed. Continuous wavelet transform of bed elevation profiles along a 1600 m long transect across compound bedforms was performed using a Morlet wavelet. The results of this approach showed that the spectrum of compound bedforms in the Grådyb channel is formed by four dominant wavelengths, with mean values of 132, 84, 46 and 6 m respectively, at 95% confidence level. A comparison of annual wavelet power spectra and global wavelet spectra revealed that their occurrence is consistent over the whole analyzed period.

AB - Bedforms are common morphological features in subaqueous and aeolian environments and their characterization is commonly the first step to better understand forcing factors acting in the system. The aim of this study was to investigate the spectral characteristics of compound bedforms in a tidal inlet and evaluate how they changed over consecutive years, when morphology was modified and bedforms migrated. High resolution bathymetric data from the Grådyb tidal inlet channel (Danish Wadden Sea) from seven years from 2002 to 2009 (not in 2004) were analyzed. Continuous wavelet transform of bed elevation profiles along a 1600 m long transect across compound bedforms was performed using a Morlet wavelet. The results of this approach showed that the spectrum of compound bedforms in the Grådyb channel is formed by four dominant wavelengths, with mean values of 132, 84, 46 and 6 m respectively, at 95% confidence level. A comparison of annual wavelet power spectra and global wavelet spectra revealed that their occurrence is consistent over the whole analyzed period.

M3 - Journal article

SN - 0749-0208

VL - SI64

SP - 751

EP - 755

JO - Journal of Coastal Research

JF - Journal of Coastal Research

ER -

Bedform evolution in a tidal inlet referred from wavelet analysis

Abstract

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