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Forested bioshields and tsunami impact mitigation in a Polynesian setting

Forested bioshields and tsunami impact mitigation in a Polynesian setting
Forested bioshields and tsunami impact mitigation in a Polynesian setting

In the 21st century tsunamis have claimed the lives of over 250,000 individuals, and have caused extensive damage to vulnerable coastal ecosystems. This vulnerability continues to increase in many areas as human activity further degrades the coastal forests that once provided a degree of protection against storms and tsunamis, collectively known as high energy marine inundation events. This work presents a case study of the design and implementation of a forested bioshield established to protect a vulnerable wetland on Maui's south east coast. Although subject to coastal inundation, this ecosystem provides high quality habitat for numerous endangered species. Anthropogenic modifications around the wetlands, particularly the loss of the protective forest, have made this ecosystem vulnerable to future inundation events. Establishing an effective bioshield requires in-depth knowledge of both the frequency and intensity of inundation events, as well as effective tree species selection and their proper configuration within the bioshield. Here, we present palynological and archaeobotanical data from the studied wetlands, and combine this with local paleotsunami data, previously published data on forested bioshields, and traditional ecological knowledge to design, optimize and install an 8,000 m2 forested bioshield, and review the wider benefits and limitations of this bioshield approach.

Ecological restoration, Forested bioshields, Paleoecology, Traditional ecological knowledge, Tsunamis
Fisher, Scott
ea9cc3a2-4eb4-4fc9-8228-7e6c5639016d
Goff, James
f51d7d6f-dfd7-4b5a-9e58-d28afad3b8a9
Cundy, Andrew B.
994fdc96-2dce-40f4-b74b-dc638286eb08
Sear, David
ccd892ab-a93d-4073-a11c-b8bca42ecfd3
McWhorter, Christina
4a57c085-9258-4214-bf54-11716b32125e
Fisher, Scott
ea9cc3a2-4eb4-4fc9-8228-7e6c5639016d
Goff, James
f51d7d6f-dfd7-4b5a-9e58-d28afad3b8a9
Cundy, Andrew B.
994fdc96-2dce-40f4-b74b-dc638286eb08
Sear, David
ccd892ab-a93d-4073-a11c-b8bca42ecfd3
McWhorter, Christina
4a57c085-9258-4214-bf54-11716b32125e

Fisher, Scott, Goff, James, Cundy, Andrew B., Sear, David and McWhorter, Christina (2025) Forested bioshields and tsunami impact mitigation in a Polynesian setting. Nature-Based Solutions, 7, [100222]. (doi:10.1016/j.nbsj.2025.100222).

Record type: Article

Abstract

In the 21st century tsunamis have claimed the lives of over 250,000 individuals, and have caused extensive damage to vulnerable coastal ecosystems. This vulnerability continues to increase in many areas as human activity further degrades the coastal forests that once provided a degree of protection against storms and tsunamis, collectively known as high energy marine inundation events. This work presents a case study of the design and implementation of a forested bioshield established to protect a vulnerable wetland on Maui's south east coast. Although subject to coastal inundation, this ecosystem provides high quality habitat for numerous endangered species. Anthropogenic modifications around the wetlands, particularly the loss of the protective forest, have made this ecosystem vulnerable to future inundation events. Establishing an effective bioshield requires in-depth knowledge of both the frequency and intensity of inundation events, as well as effective tree species selection and their proper configuration within the bioshield. Here, we present palynological and archaeobotanical data from the studied wetlands, and combine this with local paleotsunami data, previously published data on forested bioshields, and traditional ecological knowledge to design, optimize and install an 8,000 m2 forested bioshield, and review the wider benefits and limitations of this bioshield approach.

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Accepted/In Press date: 17 February 2025
e-pub ahead of print date: 22 February 2025
Published date: 3 March 2025
Keywords: Ecological restoration, Forested bioshields, Paleoecology, Traditional ecological knowledge, Tsunamis
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Identifiers

Local EPrints ID: 500085
URI: http://eprints.soton.ac.uk/id/eprint/500085
DOI: doi:10.1016/j.nbsj.2025.100222
PURE UUID: c563d394-7f13-41e4-a57b-782e3c0245d0
ORCID for Andrew B. Cundy: ORCID iD orcid.org/0000-0003-4368-2569
ORCID for David Sear: ORCID iD orcid.org/0000-0003-0191-6179

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Date deposited: 15 Apr 2025 16:54
Last modified: 22 Aug 2025 02:12

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Contributors

Author: Scott Fisher
Author: James Goff
Author: Andrew B. Cundy ORCID iD
Author: David Sear ORCID iD
Author: Christina McWhorter

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