Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach

Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach

High-resolution surveying techniques of subtidal soft-bottom seafloor habitats show higher small-scale variation in topography and sediment type than previously thought, but the ecological relevance of this variation remains unclear. In addition, high-resolution surveys of benthic fauna show a large spatial variability in community composition, but this has yet poorly been linked to seafloor morphology and sediment composition. For instance, on soft-bottom coastal shelves, hydrodynamic forces from winds and tidal currents can cause nested multiscale morphological features ranging from metre-scale (mega)ripples, to sand waves and kilometre-scale linear sandbanks. This multiscale habitat heterogeneity is generally disregarded in the ecological assessments of benthic habitats. We therefore developed and tested a novel multiscale assessment toolbox that combines standard bathymetry, multibeam backscatter classification, video surveying of epibenthos and box core samples of sediment and macrobenthos. In a study on the Brown Bank, a sandbank in the southern North Sea, we found that these methods are greatly complementary and allow for more detail in the interpretation of benthic surveys. Acoustic and video data characterised the seafloor surface and subsurface, and macrobenthos communities were found to be structured by both sandbank and sand wave topography. We found indications that acoustic techniques can be used to determine the location of epibenthic reefs. The multiscale assessment toolbox furthermore allows formulating recommendations for conservation management related to the impact of sea floor disturbances through dredging and trawling.

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Main Authors: Mestdagh, Sebastiaan, Amiri-Simkooei, Alireza, van der Reijden, Karin J., Koop, Leo, O'Flynn, Sarah, Snellen, Mirjam, Van Sluis, Christiaan, Govers, Laura L., Simons, Dick G., Herman, Peter M.J., Olff, Han, Ysebaert, Tom
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Macrobenthos, Multibeam sonar, Sand waves, Sandbanks, Seafloor morphology, Video transect,
Online Access:https://research.wur.nl/en/publications/linking-the-morphology-and-ecology-of-subtidal-soft-bottom-marine
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record_format koha
spelling dig-wur-nl-wurpubs-5629072025-01-15 Mestdagh, Sebastiaan Amiri-Simkooei, Alireza van der Reijden, Karin J. Koop, Leo O'Flynn, Sarah Snellen, Mirjam Van Sluis, Christiaan Govers, Laura L. Simons, Dick G. Herman, Peter M.J. Olff, Han Ysebaert, Tom Article/Letter to editor Estuarine, Coastal and Shelf Science 238 (2020) ISSN: 0272-7714 Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach 2020 High-resolution surveying techniques of subtidal soft-bottom seafloor habitats show higher small-scale variation in topography and sediment type than previously thought, but the ecological relevance of this variation remains unclear. In addition, high-resolution surveys of benthic fauna show a large spatial variability in community composition, but this has yet poorly been linked to seafloor morphology and sediment composition. For instance, on soft-bottom coastal shelves, hydrodynamic forces from winds and tidal currents can cause nested multiscale morphological features ranging from metre-scale (mega)ripples, to sand waves and kilometre-scale linear sandbanks. This multiscale habitat heterogeneity is generally disregarded in the ecological assessments of benthic habitats. We therefore developed and tested a novel multiscale assessment toolbox that combines standard bathymetry, multibeam backscatter classification, video surveying of epibenthos and box core samples of sediment and macrobenthos. In a study on the Brown Bank, a sandbank in the southern North Sea, we found that these methods are greatly complementary and allow for more detail in the interpretation of benthic surveys. Acoustic and video data characterised the seafloor surface and subsurface, and macrobenthos communities were found to be structured by both sandbank and sand wave topography. We found indications that acoustic techniques can be used to determine the location of epibenthic reefs. The multiscale assessment toolbox furthermore allows formulating recommendations for conservation management related to the impact of sea floor disturbances through dredging and trawling. en application/pdf https://research.wur.nl/en/publications/linking-the-morphology-and-ecology-of-subtidal-soft-bottom-marine 10.1016/j.ecss.2020.106687 https://edepot.wur.nl/518793 Macrobenthos Multibeam sonar Sand waves Sandbanks Seafloor morphology Video transect https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-nc-nd/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Macrobenthos
Multibeam sonar
Sand waves
Sandbanks
Seafloor morphology
Video transect
Macrobenthos
Multibeam sonar
Sand waves
Sandbanks
Seafloor morphology
Video transect
spellingShingle Macrobenthos
Multibeam sonar
Sand waves
Sandbanks
Seafloor morphology
Video transect
Macrobenthos
Multibeam sonar
Sand waves
Sandbanks
Seafloor morphology
Video transect
Mestdagh, Sebastiaan
Amiri-Simkooei, Alireza
van der Reijden, Karin J.
Koop, Leo
O'Flynn, Sarah
Snellen, Mirjam
Van Sluis, Christiaan
Govers, Laura L.
Simons, Dick G.
Herman, Peter M.J.
Olff, Han
Ysebaert, Tom
Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach
description High-resolution surveying techniques of subtidal soft-bottom seafloor habitats show higher small-scale variation in topography and sediment type than previously thought, but the ecological relevance of this variation remains unclear. In addition, high-resolution surveys of benthic fauna show a large spatial variability in community composition, but this has yet poorly been linked to seafloor morphology and sediment composition. For instance, on soft-bottom coastal shelves, hydrodynamic forces from winds and tidal currents can cause nested multiscale morphological features ranging from metre-scale (mega)ripples, to sand waves and kilometre-scale linear sandbanks. This multiscale habitat heterogeneity is generally disregarded in the ecological assessments of benthic habitats. We therefore developed and tested a novel multiscale assessment toolbox that combines standard bathymetry, multibeam backscatter classification, video surveying of epibenthos and box core samples of sediment and macrobenthos. In a study on the Brown Bank, a sandbank in the southern North Sea, we found that these methods are greatly complementary and allow for more detail in the interpretation of benthic surveys. Acoustic and video data characterised the seafloor surface and subsurface, and macrobenthos communities were found to be structured by both sandbank and sand wave topography. We found indications that acoustic techniques can be used to determine the location of epibenthic reefs. The multiscale assessment toolbox furthermore allows formulating recommendations for conservation management related to the impact of sea floor disturbances through dredging and trawling.
format Article/Letter to editor
topic_facet Macrobenthos
Multibeam sonar
Sand waves
Sandbanks
Seafloor morphology
Video transect
author Mestdagh, Sebastiaan
Amiri-Simkooei, Alireza
van der Reijden, Karin J.
Koop, Leo
O'Flynn, Sarah
Snellen, Mirjam
Van Sluis, Christiaan
Govers, Laura L.
Simons, Dick G.
Herman, Peter M.J.
Olff, Han
Ysebaert, Tom
author_facet Mestdagh, Sebastiaan
Amiri-Simkooei, Alireza
van der Reijden, Karin J.
Koop, Leo
O'Flynn, Sarah
Snellen, Mirjam
Van Sluis, Christiaan
Govers, Laura L.
Simons, Dick G.
Herman, Peter M.J.
Olff, Han
Ysebaert, Tom
author_sort Mestdagh, Sebastiaan
title Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach
title_short Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach
title_full Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach
title_fullStr Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach
title_full_unstemmed Linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: A novel multiscale approach
title_sort linking the morphology and ecology of subtidal soft-bottom marine benthic habitats: a novel multiscale approach
url https://research.wur.nl/en/publications/linking-the-morphology-and-ecology-of-subtidal-soft-bottom-marine
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