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Advancing coastal risk reduction science and implementation by accounting for climate, ecosystems and people

Advancing coastal risk reduction science and implementation by accounting for climate, ecosystems and people
Advancing coastal risk reduction science and implementation by accounting for climate, ecosystems and people
Climate change and population growth are degrading coastal ecosystems and increasing risks to communities and infrastructure. Reliance on seawalls and other types of hardened shorelines is unsustainable in an era of rising seas, given the costs to build and maintain these structures and their unintended consequences on ecosystems. This is especially true for communities that depend on coastal and marine ecosystems for livelihoods and sustenance. Protecting and restoring coral reefs and coastal forests can be lower cost, sustainable alternatives for shoreline protection. However, decision-makers often lack basic information about where and under what conditions ecosystems reduce risk to coastal hazards and who would benefit. To better understand where to prioritize ecosystems for coastal protection, we assessed risk reduction provided by coral reefs, mangroves, and seagrass along the entire coast of The Bahamas, under current and future climate scenarios. Modeled results show that the population most exposed to coastal hazards would more than double with future sea-level rise and more than triple if ecosystems were lost or degraded. We also found that ecosystem-based risk reduction differs across islands due to variation in a suite of ecological, physical, and social variables. On some populated islands, like Grand Bahama and Abaco, habitats provide protection to disproportionately large numbers of people compared to the rest of the country. Risk reduction provided by ecosystems is also evident for several sparsely populated, remote coastal communities, in some cases with large elderly populations. The results from our analyses were critical for engaging policy-makers in discussions about employing natural and nature-based features for coastal resilience. After hurricanes Joaquin and Matthew hit The Bahamas in 2016 and 2017, our assessment of coastal risk reduction and the multiple benefits provided by coastal ecosystems helped pave the way for an innovative loan from the Inter-American Development Bank to the Government of The Bahamas to invest in mangrove restoration for coastal resilience. This work serves as an example for other regions and investors aiming to use assessments of ecosystem services to inform financing of natural and nature-based approaches for coastal resilience and climate adaptation.
2296-7745
Silver, Jessica
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Arkema, Katie
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Griffin, Robert
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Lashley, Brett
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Lemay, Michele
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Maldonado, Sergio
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Moultrie, Stacey
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Ruckelshaus, Mary
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Schill, Steven
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Thomas, Adelle
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Wyatt, Katherine
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Verutes, Gregory
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Silver, Jessica
7951dd3d-3118-4f88-8fc3-bea32ae44d5e
Arkema, Katie
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Griffin, Robert
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Lashley, Brett
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Lemay, Michele
2f2f155f-2574-4e88-9d90-baca4a22f9d1
Maldonado, Sergio
b303ef8c-52d6-40ed-bf48-59efb4265a85
Moultrie, Stacey
36eae4b2-92aa-42a8-98fc-e9f2bd57322c
Ruckelshaus, Mary
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Schill, Steven
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Thomas, Adelle
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Wyatt, Katherine
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Verutes, Gregory
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Silver, Jessica, Arkema, Katie, Griffin, Robert, Lashley, Brett, Lemay, Michele, Maldonado, Sergio, Moultrie, Stacey, Ruckelshaus, Mary, Schill, Steven, Thomas, Adelle, Wyatt, Katherine and Verutes, Gregory (2019) Advancing coastal risk reduction science and implementation by accounting for climate, ecosystems and people. Frontiers in Marine Science, 6, [556]. (doi:10.3389/fmars.2019.00556).

Record type: Article

Abstract

Climate change and population growth are degrading coastal ecosystems and increasing risks to communities and infrastructure. Reliance on seawalls and other types of hardened shorelines is unsustainable in an era of rising seas, given the costs to build and maintain these structures and their unintended consequences on ecosystems. This is especially true for communities that depend on coastal and marine ecosystems for livelihoods and sustenance. Protecting and restoring coral reefs and coastal forests can be lower cost, sustainable alternatives for shoreline protection. However, decision-makers often lack basic information about where and under what conditions ecosystems reduce risk to coastal hazards and who would benefit. To better understand where to prioritize ecosystems for coastal protection, we assessed risk reduction provided by coral reefs, mangroves, and seagrass along the entire coast of The Bahamas, under current and future climate scenarios. Modeled results show that the population most exposed to coastal hazards would more than double with future sea-level rise and more than triple if ecosystems were lost or degraded. We also found that ecosystem-based risk reduction differs across islands due to variation in a suite of ecological, physical, and social variables. On some populated islands, like Grand Bahama and Abaco, habitats provide protection to disproportionately large numbers of people compared to the rest of the country. Risk reduction provided by ecosystems is also evident for several sparsely populated, remote coastal communities, in some cases with large elderly populations. The results from our analyses were critical for engaging policy-makers in discussions about employing natural and nature-based features for coastal resilience. After hurricanes Joaquin and Matthew hit The Bahamas in 2016 and 2017, our assessment of coastal risk reduction and the multiple benefits provided by coastal ecosystems helped pave the way for an innovative loan from the Inter-American Development Bank to the Government of The Bahamas to invest in mangrove restoration for coastal resilience. This work serves as an example for other regions and investors aiming to use assessments of ecosystem services to inform financing of natural and nature-based approaches for coastal resilience and climate adaptation.

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Accepted/In Press date: 23 August 2019
e-pub ahead of print date: 24 September 2019
Published date: 24 September 2019

Identifiers

Local EPrints ID: 433583
URI: http://eprints.soton.ac.uk/id/eprint/433583
ISSN: 2296-7745
PURE UUID: def9b1b7-f7f5-40d5-aad1-ac57c037eba1
ORCID for Sergio Maldonado: ORCID iD orcid.org/0000-0001-6072-122X

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Date deposited: 28 Aug 2019 16:30
Last modified: 16 Mar 2024 04:32

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Contributors

Author: Jessica Silver
Author: Katie Arkema
Author: Robert Griffin
Author: Brett Lashley
Author: Michele Lemay
Author: Stacey Moultrie
Author: Mary Ruckelshaus
Author: Steven Schill
Author: Adelle Thomas
Author: Katherine Wyatt
Author: Gregory Verutes

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