Site selection for European native oyster (Ostrea edulis) habitat restoration projects: An expert‐derived consensus

Anna Hughes; Kruno Bonačić; Tom Cameron; Ken Collins; Fiz Da costa; Alison Debney; Luca Van duren; Jesper Elzinga; José M. Fariñas‐franco; Celine Gamble; Luke Helmer; Zoë Holbrook; Eric Holden; Katherine Knight; James A. J. Murphy; Bernadette Pogoda; Stéphane Pouvreau; Joanne Preston; Alec Reid; Emilie Reuchlin‐hugenholtz; William G. Sanderson; David Smyth; Brecht Stechele; Åsa Strand; John A. Theodorou; Matt Uttley; Ben Wray; Philine S. E. Zu ermgassen

doi:10.1002/aqc.3917

Site selection for European native oyster (Ostrea edulis) habitat restoration projects: An expert‐derived consensus

Anna Hughes, Kruno Bonačić, Tom Cameron, Ken Collins, Fiz Da costa, Alison Debney, Luca Van duren, Jesper Elzinga, José M. Fariñas‐franco, Celine Gamble, Luke Helmer, Zoë Holbrook, Eric Holden, Katherine Knight, James A. J. Murphy, Bernadette Pogoda, Stéphane Pouvreau, Joanne Preston, Alec Reid, Emilie Reuchlin‐hugenholtzWilliam G. Sanderson, David Smyth, Brecht Stechele, Åsa Strand, John A. Theodorou, Matt Uttley, Ben Wray, Philine S. E. Zu ermgassen

School of Geosciences

Research output: Contribution to journal › Article › peer-review

Abstract

The European native oyster (Ostrea edulis) is a threatened keystone species which historically created extensive, physically complex, biogenic habitats throughout European seas. Overfishing and direct habitat destruction, subsequently compounded by pollution, invasive species, disease, predation and climate change have resulted in the functional extinction of native oyster habitat across much of its former range. Although oyster reef habitat remains imperilled, active restoration efforts are rapidly gaining momentum. Identifying appropriate sites for habitat restoration is an essential first step in long-term project success. In this study, a three-round Delphi process was conducted to determine the most important factors to consider in site selection for European native oyster habitat restoration projects. Consensus was reached on a total of 65 factors as being important to consider in site selection for European native oyster habitat restoration projects. In addition to the abiotic factors typically included in habitat suitability models, socio-economic and logistical factors were found to be important. Determining the temporal and spatial variability of threats to native oyster habitat restoration and understanding the biotic factors present at a proposed restoration site also influence the potential for project scale-up and longevity. This list guides site selection by identifying: a shortlist of measurable factors which should be considered; the relevant data to collect; topics for discussion in participatory mapping processes; information of interest from the existing body of local ecological knowledge; and factors underpinning supportive and facilitating regulatory frameworks.

Original language	English
Pages (from-to)	721-736
Journal	Aquatic Conservation: Marine and Freshwater Ecosystems
Volume	33
Issue number	7
DOIs	https://doi.org/10.1002/aqc.3917
Publication status	Published - Jul 2023

Keywords / Materials (for Non-textual outputs)

Delphi
biotic factor
decision making
ecological restoration
project logistics
socio-economic factors
threats

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Aquatic Conservation - 2023 - Hughes - Site selection for European native oyster Ostrea edulis habitat restoration
© 2023 The Authors.Aquatic Conservation: Marine and Freshwater Ecosystemspublished by John Wiley & Sons Ltd
Final published version, 2.16 MBLicence: Creative Commons: Attribution (CC-BY)

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Hughes, A., Bonačić, K., Cameron, T., Collins, K., Da costa, F., Debney, A., Van duren, L., Elzinga, J., Fariñas‐franco, J. M., Gamble, C., Helmer, L., Holbrook, Z., Holden, E., Knight, K., Murphy, J. A. J., Pogoda, B., Pouvreau, S., Preston, J., Reid, A., ... Zu ermgassen, P. S. E. (2023). Site selection for European native oyster (Ostrea edulis) habitat restoration projects: An expert‐derived consensus. Aquatic Conservation: Marine and Freshwater Ecosystems, 33(7), 721-736. https://doi.org/10.1002/aqc.3917

@article{35a2c0925b3e4c98b905c3d3f99e93ec,

title = "Site selection for European native oyster (Ostrea edulis) habitat restoration projects: An expert‐derived consensus",

abstract = "The European native oyster (Ostrea edulis) is a threatened keystone species which historically created extensive, physically complex, biogenic habitats throughout European seas. Overfishing and direct habitat destruction, subsequently compounded by pollution, invasive species, disease, predation and climate change have resulted in the functional extinction of native oyster habitat across much of its former range. Although oyster reef habitat remains imperilled, active restoration efforts are rapidly gaining momentum. Identifying appropriate sites for habitat restoration is an essential first step in long-term project success. In this study, a three-round Delphi process was conducted to determine the most important factors to consider in site selection for European native oyster habitat restoration projects. Consensus was reached on a total of 65 factors as being important to consider in site selection for European native oyster habitat restoration projects. In addition to the abiotic factors typically included in habitat suitability models, socio-economic and logistical factors were found to be important. Determining the temporal and spatial variability of threats to native oyster habitat restoration and understanding the biotic factors present at a proposed restoration site also influence the potential for project scale-up and longevity. This list guides site selection by identifying: a shortlist of measurable factors which should be considered; the relevant data to collect; topics for discussion in participatory mapping processes; information of interest from the existing body of local ecological knowledge; and factors underpinning supportive and facilitating regulatory frameworks.",

keywords = "Delphi, biotic factor, decision making, ecological restoration, project logistics, socio-economic factors, threats",

author = "Anna Hughes and Kruno Bona{\v c}i{\'c} and Tom Cameron and Ken Collins and {Da costa}, Fiz and Alison Debney and {Van duren}, Luca and Jesper Elzinga and Fari{\~n}as‐franco, {Jos{\'e} M.} and Celine Gamble and Luke Helmer and Zo{\"e} Holbrook and Eric Holden and Katherine Knight and Murphy, {James A. J.} and Bernadette Pogoda and St{\'e}phane Pouvreau and Joanne Preston and Alec Reid and Emilie Reuchlin‐hugenholtz and Sanderson, {William G.} and David Smyth and Brecht Stechele and {\AA}sa Strand and Theodorou, {John A.} and Matt Uttley and Ben Wray and {Zu ermgassen}, {Philine S. E.}",

note = "Funding Information: This work was the product of the Site Selection Working Group within the Native Oyster Restoration Alliance (NORA). The NORA Secretariat are funded by the Federal Ministry for the Environment, Nature Conservation and Nuclear Safety (Bundesministerium f{\"u}r Umwelt, Naturschutz und Reaktorsicherheit) and the German Federal Agency for Nature Conservation (Bundesamt f{\"u}r Naturschutz) through the Federal Program for Biodiversity and the Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research within the project PROCEED (FKZ 3517685013). PSEzE was supported by The Nature Conservancy, Global Ocean Team. Publisher Copyright: {\textcopyright} 2023 The Authors. Aquatic Conservation: Marine and Freshwater Ecosystems published by John Wiley & Sons Ltd.",

year = "2023",

month = jul,

doi = "10.1002/aqc.3917",

language = "English",

volume = "33",

pages = "721--736",

journal = "Aquatic Conservation: Marine and Freshwater Ecosystems",

issn = "1052-7613",

publisher = "Wiley",

number = "7",

}

Hughes, A, Bonačić, K, Cameron, T, Collins, K, Da costa, F, Debney, A, Van duren, L, Elzinga, J, Fariñas‐franco, JM, Gamble, C, Helmer, L, Holbrook, Z, Holden, E, Knight, K, Murphy, JAJ, Pogoda, B, Pouvreau, S, Preston, J, Reid, A, Reuchlin‐hugenholtz, E, Sanderson, WG, Smyth, D, Stechele, B, Strand, Å, Theodorou, JA, Uttley, M, Wray, B & Zu ermgassen, PSE 2023, 'Site selection for European native oyster (Ostrea edulis) habitat restoration projects: An expert‐derived consensus', Aquatic Conservation: Marine and Freshwater Ecosystems, vol. 33, no. 7, pp. 721-736. https://doi.org/10.1002/aqc.3917

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T1 - Site selection for European native oyster (Ostrea edulis) habitat restoration projects: An expert‐derived consensus

AU - Hughes, Anna

AU - Bonačić, Kruno

AU - Cameron, Tom

AU - Collins, Ken

AU - Da costa, Fiz

AU - Debney, Alison

AU - Van duren, Luca

AU - Elzinga, Jesper

AU - Fariñas‐franco, José M.

AU - Gamble, Celine

AU - Helmer, Luke

AU - Holbrook, Zoë

AU - Holden, Eric

AU - Knight, Katherine

AU - Murphy, James A. J.

AU - Pogoda, Bernadette

AU - Pouvreau, Stéphane

AU - Preston, Joanne

AU - Reid, Alec

AU - Reuchlin‐hugenholtz, Emilie

AU - Sanderson, William G.

AU - Smyth, David

AU - Stechele, Brecht

AU - Strand, Åsa

AU - Theodorou, John A.

AU - Uttley, Matt

AU - Wray, Ben

AU - Zu ermgassen, Philine S. E.

N1 - Funding Information: This work was the product of the Site Selection Working Group within the Native Oyster Restoration Alliance (NORA). The NORA Secretariat are funded by the Federal Ministry for the Environment, Nature Conservation and Nuclear Safety (Bundesministerium für Umwelt, Naturschutz und Reaktorsicherheit) and the German Federal Agency for Nature Conservation (Bundesamt für Naturschutz) through the Federal Program for Biodiversity and the Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research within the project PROCEED (FKZ 3517685013). PSEzE was supported by The Nature Conservancy, Global Ocean Team. Publisher Copyright: © 2023 The Authors. Aquatic Conservation: Marine and Freshwater Ecosystems published by John Wiley & Sons Ltd.

PY - 2023/7

Y1 - 2023/7

N2 - The European native oyster (Ostrea edulis) is a threatened keystone species which historically created extensive, physically complex, biogenic habitats throughout European seas. Overfishing and direct habitat destruction, subsequently compounded by pollution, invasive species, disease, predation and climate change have resulted in the functional extinction of native oyster habitat across much of its former range. Although oyster reef habitat remains imperilled, active restoration efforts are rapidly gaining momentum. Identifying appropriate sites for habitat restoration is an essential first step in long-term project success. In this study, a three-round Delphi process was conducted to determine the most important factors to consider in site selection for European native oyster habitat restoration projects. Consensus was reached on a total of 65 factors as being important to consider in site selection for European native oyster habitat restoration projects. In addition to the abiotic factors typically included in habitat suitability models, socio-economic and logistical factors were found to be important. Determining the temporal and spatial variability of threats to native oyster habitat restoration and understanding the biotic factors present at a proposed restoration site also influence the potential for project scale-up and longevity. This list guides site selection by identifying: a shortlist of measurable factors which should be considered; the relevant data to collect; topics for discussion in participatory mapping processes; information of interest from the existing body of local ecological knowledge; and factors underpinning supportive and facilitating regulatory frameworks.

AB - The European native oyster (Ostrea edulis) is a threatened keystone species which historically created extensive, physically complex, biogenic habitats throughout European seas. Overfishing and direct habitat destruction, subsequently compounded by pollution, invasive species, disease, predation and climate change have resulted in the functional extinction of native oyster habitat across much of its former range. Although oyster reef habitat remains imperilled, active restoration efforts are rapidly gaining momentum. Identifying appropriate sites for habitat restoration is an essential first step in long-term project success. In this study, a three-round Delphi process was conducted to determine the most important factors to consider in site selection for European native oyster habitat restoration projects. Consensus was reached on a total of 65 factors as being important to consider in site selection for European native oyster habitat restoration projects. In addition to the abiotic factors typically included in habitat suitability models, socio-economic and logistical factors were found to be important. Determining the temporal and spatial variability of threats to native oyster habitat restoration and understanding the biotic factors present at a proposed restoration site also influence the potential for project scale-up and longevity. This list guides site selection by identifying: a shortlist of measurable factors which should be considered; the relevant data to collect; topics for discussion in participatory mapping processes; information of interest from the existing body of local ecological knowledge; and factors underpinning supportive and facilitating regulatory frameworks.

KW - Delphi

KW - biotic factor

KW - decision making

KW - ecological restoration

KW - project logistics

KW - socio-economic factors

KW - threats

U2 - 10.1002/aqc.3917

DO - 10.1002/aqc.3917

M3 - Article

SN - 1052-7613

VL - 33

SP - 721

EP - 736

JO - Aquatic Conservation: Marine and Freshwater Ecosystems

JF - Aquatic Conservation: Marine and Freshwater Ecosystems

IS - 7

ER -

Site selection for European native oyster (Ostrea edulis) habitat restoration projects: An expert‐derived consensus

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Keywords / Materials (for Non-textual outputs)

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