Quantifying bedform migration using multi-beam sonar

Knaapen, M.A.F.; Henegouw, C.N. van Bergen; Hu, Yongchang

doi:10.1007/s00367-005-0005-z

Cited by 48 publications

(35 citation statements)

References 16 publications

(14 reference statements)

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“…These maps help define the geological variability of the seafloor and improve the understanding of the processes that control the distribution and transport of bottom sediments, as well as the distribution of benthic habitats and associated infaunal community structures (Popper et al, 2006). Although shallow-water multibeam sonar technology (MBES) has been largely employed in mapping seabed morphology and composition (Augustin et al, 1996;Cauwenberghe, 1996;Mitchell, 1996;Shaw et al, 1997;Kammerer et al, 1998;Acosta et al, 2001;Dziak et al, 2001;Beyer et al, 2005;Knaapen et al, 2005;Chakraborty et al, 2006;Mayer, 2006), pipeline routes (Hansen and Simonis, 1994;Clasper, 1996;Paton et al, 1997; Ross et al, 2004), coral reefs (Grigg et al, 2002; Hovland et al, 2002;Conway et al, 2005;Roberts et al, 2005), and searching wrecks (Singh et al, 2000;Lawrence et al, 2001;Mayer and Kenneth, 2001;Mayer et al, 2003), it has not been used often in the fine detection of reef units, or to investigate their horizontal and vertical movements and subsidence (Shyue, 1998;Shyue and Yang, 2002).Starting with the above considerations, we carried out an assessment study at a 9-year old artificial reef deployed in the northern Adriatic Sea using an acoustic method involving both multibeam sonar for artificial reef mapping and a scientific echosounder for analysing fish distribution and movements during diel cycles at different periods of the year. The aim was to investigate the distribution of the reef fish assemblage in relation to the arrangement and state of the structures.…”

mentioning

confidence: 99%

Vertical diel dynamic of fish assemblage associated with an artificial reef (Northern Adriatic Sea)

Sala¹,

Fabi²,

Manoukian³

2007

Sci. Mar.

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SUMMARY: The vertical diel activity of a fish assemblage inhabiting the Senigallia artificial reef (northern Adriatic Sea, Italy) was evaluated from July to November 1996 using enhanced hydroacoustic techniques. Extensive seabed mapping of the area was done using a multibeam echosounder to obtain background imagery of the reef structures and identify the most suitable locations for placing stationary acoustic transducers. Three acoustic transducers were placed inside the reef area, while a fourth was located in the open sea outside the area. Data analysis was conducted on three different depth layers: surface, midwater and bottom. In each layer, diel fish biomass inside the reef showed two peaks, one in the early morning and the other in the late evening. Slightly different behaviour was observed outside the protected area. Comparison of the layers showed that fish biomass was not homogeneously distributed along the water column throughout the sampling period. There were high values in the middle and bottom layers until the end of August. However, no significant biomass variations in time were observed outside the reef where low values were always recorded in each layer.Keywords: Adriatic Sea, artificial reef, fish biomass, multibeam sonar, split-beam hydroacoustic. RESUMEN: DINÁMICA DIARIA VERTICAL DE COMUNIDADES DE PECES ASOCIADOS A UN ARRECIFE ARTIFICIAL (MAR ADRIÁTICO NORTE). -La actividad diaria vertical de la comunidad de peces que habitan en el arrecife artificial Senigallia (Mar Adriatico Norte, Italia), se evaluó desde julio a noviembre de 1996 utilizando técnicas de hidroacústica. Se realizó un mapaje extenso del fondo marino utilizando una ecosonda multihaz para obtener imágenes de las estructuras del arrecife e identificar las áreas más adecuadas para emplazar los transductores acústicos. Tres fueron colocados dentro del área del arrecife, mientras que un cuarto fue situado en mar abierto, fuera del área. El análisis de datos se realizó a tres profundidades: superficie, profundidad intermedia y fondo. En cada profundidad la biomasa diaria de peces en el arrecife mostraba dos picos, uno por la mañana y otro al anochecer. Pequeñas diferencias en el comportamiento de los peces se observaron fuera del área protegida. Comparando entre las distintas profundidades mostramos que la biomasa de los peces no estaba uniformemente distribuida a lo largo de la columna de agua, durante el período de muestreo, con valores altos en las profundidades intermedias y en el fondo hasta finales de agosto. Por otro lado no se observaron variaciones de biomasa significativas en el tiempo fuera del arrecife donde siempre prevalecieron valores bajos en cada profundidad.Palabras clave: mar Adriático, arrecife artificial, sonar multihaz, hidoacústica.of putting the observer in direct contact with the organisms and habitats being surveyed, thereby allowing a considerable amount of useful information to be gathered. The disadvantages are depth constraints, the influence of visual conditions, avoidance, and the variability of behav...

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mentioning

confidence: 99%

Vertical diel dynamic of fish assemblage associated with an artificial reef (Northern Adriatic Sea)

Sala¹,

Fabi²,

Manoukian³

2007

Sci. Mar.

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“…It has become possible to investigate quantitatively in far more detail important aspects of bottom surface roughness and to verify geomorphological processes responsible for bedform formation through interactions between sediments and water flow (e.g. Bartholomä et al 2004;Knaapen et al 2005;Parsons et al 2005;Knaapen 2008;Barnard et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Estimation of dimensions and orientation of multiple riverine dune generations using spectral moments

Lisimenka

Kubicki²

2016

Geo-Mar Lett

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A new spectral analysis technique is proposed for rhythmic bedform quantification, based on the 2D Fourier transform involving the calculation of a set of low-order spectral moments. The approach provides a tool for efficient quantification of bedform length and height as well as spatial crestline alignment. Contrary to the conventional method, it not only describes the most energetic component of an undulating seabed surface but also retrieves information on its secondary structure without application of any band-pass filter of which the upper and lower cut-off frequencies are a priori unknown. Validation is based on bathymetric data collected in the main Vistula River mouth area (Przekop Wisły), Poland. This revealed two generations (distinct groups) of dunes which are migrating seawards along distinct paths, probably related to the hydrological regime of the river. The data enable the identification of dune divergence and convergence zones. The approach proved successful in the parameterisation of topographic roughness, an essential aspect in numerical modelling studies.

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“…The sensor suites appropriate for AUV and ROV survey operations have become identical because of the shrinking size of high-frequency multi-beam sonars and high-resolution and dynamic-range cameras. The results shown in Figs 6,8, and 9 were produced using 12-bit Prosilica cameras, a 2250 kHz Blueview multi-beam sonar, and a single 532 nm laser line for structured light imaging.…”

Section: Site Surveymentioning

confidence: 99%

“…Even in shallow water the superior handling of AUVs, with steady speed, minimal pitch and roll motions, constant altitude control, and efficient turns, makes them attractive platforms in comparison with tow bodies and hull-mounted systems on surface vessels. The data products are actively used in marine geology for topics ranging from submarine volcanoes to sand ripples [1][2][3][4][5][6][7][8], marine archaeology [9][10][11][12], oil exploration [13], habitat mapping [14][15][16], and sea ice mapping [17][18][19].…”

Section: Introductionmentioning

confidence: 99%

Autonomous Underwater Vehicles as Tools for Deep-Submergence Archaeology

Roman

Mather

2010

Proceedings of the Institution of Mechanical Engineers, Part M:

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Marine archaeology beyond the capabilities of scuba divers is a technologically enabled field. The tool suite includes ship-based systems such as towed side-scan sonars and remotely operated vehicles, and more recently free-swimming autonomous underwater vehicles (AUVs). Each of these platforms has various imaging and mapping capabilities appropriate for specific scales and tasks. Broadly speaking, AUVs are becoming effective tools for locating, identifying, and surveying archaeological sites. This paper discusses the role of AUVs in this suite of tools, outlines some specific design criteria necessary to maximize their utility in the field, and presents directions for future developments. Results are presented for a recent joint AUV-towed system survey and a demonstration of current mine-hunting technologies applied to archaeology.

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Quantifying bedform migration using multi-beam sonar

Cited by 48 publications

References 16 publications

Vertical diel dynamic of fish assemblage associated with an artificial reef (Northern Adriatic Sea)

Vertical diel dynamic of fish assemblage associated with an artificial reef (Northern Adriatic Sea)

Estimation of dimensions and orientation of multiple riverine dune generations using spectral moments

Autonomous Underwater Vehicles as Tools for Deep-Submergence Archaeology

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