A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend

Institut for Geovidenskab og Naturforvaltning

A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend. / Hansen, Lars Ø.; Ernstsen, Verner B.; Andersen, Mikkel S.; Al-Hamdani, Zyad; Becker, Marius; Andresen, Katrine J.; Trinhammer, Per L.; Vang, Torben; Bartholdy, Jesper; Kroon, Aart.

I: Geomorphology, Bind 413, 108371, 2022.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Hansen, LØ, Ernstsen, VB, Andersen, MS, Al-Hamdani, Z, Becker, M, Andresen, KJ, Trinhammer, PL, Vang, T, Bartholdy, J & Kroon, A 2022, 'A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend', Geomorphology, bind 413, 108371. https://doi.org/10.1016/j.geomorph.2022.108371

APA

Hansen, L. Ø., Ernstsen, V. B., Andersen, M. S., Al-Hamdani, Z., Becker, M., Andresen, K. J., Trinhammer, P. L., Vang, T., Bartholdy, J., & Kroon, A. (2022). A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend. Geomorphology, 413, [108371]. https://doi.org/10.1016/j.geomorph.2022.108371

Vancouver

Hansen LØ, Ernstsen VB, Andersen MS, Al-Hamdani Z, Becker M, Andresen KJ o.a. A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend. Geomorphology. 2022;413. 108371. https://doi.org/10.1016/j.geomorph.2022.108371

Author

Hansen, Lars Ø. ; Ernstsen, Verner B. ; Andersen, Mikkel S. ; Al-Hamdani, Zyad ; Becker, Marius ; Andresen, Katrine J. ; Trinhammer, Per L. ; Vang, Torben ; Bartholdy, Jesper ; Kroon, Aart. / A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend. I: Geomorphology. 2022 ; Bind 413.

Bibtex

@article{10b640dcbc21414caf5fb011e642fec5,

title = "A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend",

abstract = "Seabed geodiversity comprises abiotic seabed structures and functions that form valuable natural resources, foundation for benthic habitats and marine ecosystems, and requires knowledge based, sustainable management. Geomorphological mapping involves delineation of surface features based on form, material composition and formative processes. We present an approach that applies methods of scale analysis and geomorphometric classification to characterize seabed morphology and interpretation of geomorphic units in a dynamic and complex marine meander bend. Seabed morphology was delineated using the morphometry as template supported by the DEM and associated surface derivatives. The seabed morphology served as input to an interpretation of geomorphic units applying a fluvial classification scheme in channelized marine settings. We demonstrate the potential of using a (semi-) automated morphometric classification scheme to support the characterization of high-resolution seabed morphology based on descriptive definitions and the potential of translating a fluvial classification scheme in channelized marine settings.",

keywords = "Classification analysis, Digital Elevation Model, Geomorphology, Geomorphometry, Multi-scale analysis, Seabed morphology",

author = "Hansen, {Lars {\O}.} and Ernstsen, {Verner B.} and Andersen, {Mikkel S.} and Zyad Al-Hamdani and Marius Becker and Andresen, {Katrine J.} and Trinhammer, {Per L.} and Torben Vang and Jesper Bartholdy and Aart Kroon",

note = "Publisher Copyright: {\textcopyright} 2022 Elsevier B.V.",

year = "2022",

doi = "10.1016/j.geomorph.2022.108371",

language = "English",

volume = "413",

journal = "Geomorphology",

issn = "0169-555X",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - A multi-scale geomorphometric approach to semi-automated classification of seabed morphology of a dynamic and complex marine meander bend

AU - Hansen, Lars Ø.

AU - Ernstsen, Verner B.

AU - Andersen, Mikkel S.

AU - Al-Hamdani, Zyad

AU - Becker, Marius

AU - Andresen, Katrine J.

AU - Trinhammer, Per L.

AU - Vang, Torben

AU - Bartholdy, Jesper

AU - Kroon, Aart

PY - 2022

Y1 - 2022

N2 - Seabed geodiversity comprises abiotic seabed structures and functions that form valuable natural resources, foundation for benthic habitats and marine ecosystems, and requires knowledge based, sustainable management. Geomorphological mapping involves delineation of surface features based on form, material composition and formative processes. We present an approach that applies methods of scale analysis and geomorphometric classification to characterize seabed morphology and interpretation of geomorphic units in a dynamic and complex marine meander bend. Seabed morphology was delineated using the morphometry as template supported by the DEM and associated surface derivatives. The seabed morphology served as input to an interpretation of geomorphic units applying a fluvial classification scheme in channelized marine settings. We demonstrate the potential of using a (semi-) automated morphometric classification scheme to support the characterization of high-resolution seabed morphology based on descriptive definitions and the potential of translating a fluvial classification scheme in channelized marine settings.

AB - Seabed geodiversity comprises abiotic seabed structures and functions that form valuable natural resources, foundation for benthic habitats and marine ecosystems, and requires knowledge based, sustainable management. Geomorphological mapping involves delineation of surface features based on form, material composition and formative processes. We present an approach that applies methods of scale analysis and geomorphometric classification to characterize seabed morphology and interpretation of geomorphic units in a dynamic and complex marine meander bend. Seabed morphology was delineated using the morphometry as template supported by the DEM and associated surface derivatives. The seabed morphology served as input to an interpretation of geomorphic units applying a fluvial classification scheme in channelized marine settings. We demonstrate the potential of using a (semi-) automated morphometric classification scheme to support the characterization of high-resolution seabed morphology based on descriptive definitions and the potential of translating a fluvial classification scheme in channelized marine settings.

KW - Classification analysis

KW - Digital Elevation Model

KW - Geomorphology

KW - Geomorphometry

KW - Multi-scale analysis

KW - Seabed morphology

U2 - 10.1016/j.geomorph.2022.108371

DO - 10.1016/j.geomorph.2022.108371

M3 - Journal article

AN - SCOPUS:85134225467

VL - 413

JO - Geomorphology

JF - Geomorphology

SN - 0169-555X

M1 - 108371

ER -

ID: 316818703