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Effect of the structural complexity of a coral reef on wave propagation: a case study from Komaka Island, Japan

Effect of the structural complexity of a coral reef on wave propagation: a case study from Komaka Island, Japan
Effect of the structural complexity of a coral reef on wave propagation: a case study from Komaka Island, Japan

The structural complexity of coral reefs has an essential impact on coastal wave propagation. Nevertheless, bathymetry data, from which complex structures of several meters in size can be ascertained, have yet to be used for numerical modelling. To investigate the effects of coral reef structural complexity on coastal wave propagation, we first obtained 1-m resolution bathymetry data from a multibeam echosounder on Komaka Island, Japan. Then we conducted numerical simulations of storm waves over the obtained bathymetry. The simulation results using fine topographic resolution demonstrate that vorticity over the reef slope is significant due to the structural complexity of coral reefs, including spurs and grooves. This implies that complex features of several meters over the reef slope induce wave-driven currents, which is often a pathway for nutrient transport. However, the calculated wave energy densities over the reef flat are mostly the same, even when coarse bathymetry resolution is used. Thus, the overall reef slope, edge, and flat account for most of the dissipation process of storm waves, whereas complex structures of several meters in size have little impact. In contrast, the coral structures several meters in size contribute to the ecosystem by facilitating seawater rather than dissipating extreme waves.

Bottom friction, Coastal wave, Coral reefs, Multibeam echosounder, Spur and groove
0029-8018
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Kan, Hironobu
a07a7c3a-2c22-4869-b9bc-48603f82bc03
Toguchi, Ken
c38284f7-2c8f-45ad-8adb-ec99e8171ba4
Nakashima, Yosuke
cc953416-501a-43db-8134-d381af4d05bd
Roeber, Volker
919cc675-eb72-4f7a-b944-42f36a1c0499
Arikawa, Taro
b28764bf-bf48-47ea-a3e4-be66f640670f
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Kan, Hironobu
a07a7c3a-2c22-4869-b9bc-48603f82bc03
Toguchi, Ken
c38284f7-2c8f-45ad-8adb-ec99e8171ba4
Nakashima, Yosuke
cc953416-501a-43db-8134-d381af4d05bd
Roeber, Volker
919cc675-eb72-4f7a-b944-42f36a1c0499
Arikawa, Taro
b28764bf-bf48-47ea-a3e4-be66f640670f

Watanabe, Masashi, Kan, Hironobu, Toguchi, Ken, Nakashima, Yosuke, Roeber, Volker and Arikawa, Taro (2023) Effect of the structural complexity of a coral reef on wave propagation: a case study from Komaka Island, Japan. Ocean Engineering, 287, [115632]. (doi:10.1016/j.oceaneng.2023.115632).

Record type: Article

Abstract

The structural complexity of coral reefs has an essential impact on coastal wave propagation. Nevertheless, bathymetry data, from which complex structures of several meters in size can be ascertained, have yet to be used for numerical modelling. To investigate the effects of coral reef structural complexity on coastal wave propagation, we first obtained 1-m resolution bathymetry data from a multibeam echosounder on Komaka Island, Japan. Then we conducted numerical simulations of storm waves over the obtained bathymetry. The simulation results using fine topographic resolution demonstrate that vorticity over the reef slope is significant due to the structural complexity of coral reefs, including spurs and grooves. This implies that complex features of several meters over the reef slope induce wave-driven currents, which is often a pathway for nutrient transport. However, the calculated wave energy densities over the reef flat are mostly the same, even when coarse bathymetry resolution is used. Thus, the overall reef slope, edge, and flat account for most of the dissipation process of storm waves, whereas complex structures of several meters in size have little impact. In contrast, the coral structures several meters in size contribute to the ecosystem by facilitating seawater rather than dissipating extreme waves.

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More information

Accepted/In Press date: 13 August 2023
e-pub ahead of print date: 7 September 2023
Additional Information: Publisher Copyright: © 2023
Keywords: Bottom friction, Coastal wave, Coral reefs, Multibeam echosounder, Spur and groove
Learn more about School of Ocean and Earth Science research

Identifiers

Local EPrints ID: 493931
URI: http://eprints.soton.ac.uk/id/eprint/493931
DOI: doi:10.1016/j.oceaneng.2023.115632
ISSN: 0029-8018
PURE UUID: 3a1ec13e-d463-4326-b951-ac5045f6f1c1
ORCID for Masashi Watanabe: ORCID iD orcid.org/0000-0003-3670-7385

Catalogue record

Date deposited: 17 Sep 2024 17:02
Last modified: 19 Sep 2024 02:09

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Contributors

Author: Masashi Watanabe ORCID iD
Author: Hironobu Kan
Author: Ken Toguchi
Author: Yosuke Nakashima
Author: Volker Roeber
Author: Taro Arikawa

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