Priority species to support the functional integrity of coral reefs

Ecosystem-based management on coral reefs has historically focused on biodiversity conservation through the establishment of marine reserves, but it is increasingly recognised that a subset of species can be key to the maintenance of ecosystem processes and functioning. Specific provisions for these...

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Hauptverfasser:	Wolfe, Kennedy, Anthony, Ken, Babcock, Russell C, Bay, Line, Bourne, David G, Burrows, Damien, Byrne, Maria, Deaker, Dione J, Diaz-Pulido, Guillermo, Frade, Pedro R, Gonzalez-Rivero, Manuel, Hoey, Andrew, Hoogenboom, Mia, McCormick, Mark, Ortiz, Juan-Carlos, Razak, Tries, Richardson, Anthony J, Roff, George, Sheppard-Brennand, Hannah, Stella, Jessica, Thompson, Angus, Watson, Sue-Ann, Webster, Nicole, Audas, Donna, Beeden, Roger, Carver, Jesseca, Cowlishaw, Mel, Dyer, Michelle, Groves, Paul, Horne, Dylan, Thiault, Lauric, Vains, Jason, Wachenfeld, David, Weekers, Damien, Williams, Genevieve, Mumby, Peter J
Format:	Buchkapitel
Sprache:	eng
Schlagworte:	Allcock Annual Bates,B Biodiversity and Ecology Biology Biology, life sciences Environmental Sciences Evans Firth Hawkins Hydrobiology life sciences::PSP Hydrobiology::PSPM Marine biology Marine Marine biology Mathematics and Science Oceanography OMBAR Review Russell Smith Swearer thema EDItEUR thema EDItEUR::P Mathematics and Science::PS Biology Todd Volume
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creator	Wolfe, Kennedy Anthony, Ken Babcock, Russell C Bay, Line Bourne, David G Burrows, Damien Byrne, Maria Deaker, Dione J Diaz-Pulido, Guillermo Frade, Pedro R Gonzalez-Rivero, Manuel Hoey, Andrew Hoogenboom, Mia McCormick, Mark Ortiz, Juan-Carlos Razak, Tries Richardson, Anthony J Roff, George Sheppard-Brennand, Hannah Stella, Jessica Thompson, Angus Watson, Sue-Ann Webster, Nicole Audas, Donna Beeden, Roger Carver, Jesseca Cowlishaw, Mel Dyer, Michelle Groves, Paul Horne, Dylan Thiault, Lauric Vains, Jason Wachenfeld, David Weekers, Damien Williams, Genevieve Mumby, Peter J
description	Ecosystem-based management on coral reefs has historically focused on biodiversity conservation through the establishment of marine reserves, but it is increasingly recognised that a subset of species can be key to the maintenance of ecosystem processes and functioning. Specific provisions for these key taxa are essential to biodiversity conservation and resilience-based adaptive management. While a wealth of literature addresses ecosystem functioning on coral reefs, available information covers only a subset of specific taxa, ecological processes and environmental stressors. What is lacking is a comparative assessment across the diverse range of coral reef species to synthesise available knowledge to inform science and management. Here we employed expert elicitation coupled with a literature review to generate the first comprehensive assessment of 70 taxonomically diverse and functionally distinct coral reef species from microbes to top predators to summarise reef functioning. Although our synthesis is largely through the lens of the Great Barrier Reef, Australia, a particularly data-rich system, it is relevant to coral reefs in general. We use this assessment to evaluate which taxa drive processes that maintain a healthy reef, and whether or not management of these taxa is considered a priority (i.e. are they vulnerable?) or is feasible (i.e. can they be managed?). Scientific certainty was scored to weight our recommendations, particularly when certainty was low. We use five case studies to highlight critical gaps in knowledge that limit our understanding of ecosystem functioning. To inform the development of novel management strategies and research objectives, we identify taxa that support positive interactions and enhance ecosystem performance, including those where these roles are currently underappreciated. We conclude that current initiatives effectively capture many priority taxa, but that there is significant room to increase opportunities for underappreciated taxa in both science and management to maximally safeguard coral reef functioning.
doi_str_mv	10.1201/9780429351495-5
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L. ; Evans, A. J. ; Swearer, S. E. ; Todd, P. A. ; Smith, I. P. ; Firth, L. B. ; McQuaid, C. D. ; Russell, B. D. ; Bates, A. E. ; Hawkins, S. J. ; Swearer, S ; Firth, L. B ; Allcock, A. L ; McQuaid, C ; Bates, A. E ; Todd, P ; Evans, A ; Hawkins, S. J ; Russell, B ; Smith, I. P</contributor><creatorcontrib>Wolfe, Kennedy ; Anthony, Ken ; Babcock, Russell C ; Bay, Line ; Bourne, David G ; Burrows, Damien ; Byrne, Maria ; Deaker, Dione J ; Diaz-Pulido, Guillermo ; Frade, Pedro R ; Gonzalez-Rivero, Manuel ; Hoey, Andrew ; Hoogenboom, Mia ; McCormick, Mark ; Ortiz, Juan-Carlos ; Razak, Tries ; Richardson, Anthony J ; Roff, George ; Sheppard-Brennand, Hannah ; Stella, Jessica ; Thompson, Angus ; Watson, Sue-Ann ; Webster, Nicole ; Audas, Donna ; Beeden, Roger ; Carver, Jesseca ; Cowlishaw, Mel ; Dyer, Michelle ; Groves, Paul ; Horne, Dylan ; Thiault, Lauric ; Vains, Jason ; Wachenfeld, David ; Weekers, Damien ; Williams, Genevieve ; Mumby, Peter J ; Allcock, A. L. ; Evans, A. 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What is lacking is a comparative assessment across the diverse range of coral reef species to synthesise available knowledge to inform science and management. Here we employed expert elicitation coupled with a literature review to generate the first comprehensive assessment of 70 taxonomically diverse and functionally distinct coral reef species from microbes to top predators to summarise reef functioning. Although our synthesis is largely through the lens of the Great Barrier Reef, Australia, a particularly data-rich system, it is relevant to coral reefs in general. We use this assessment to evaluate which taxa drive processes that maintain a healthy reef, and whether or not management of these taxa is considered a priority (i.e. are they vulnerable?) or is feasible (i.e. can they be managed?). Scientific certainty was scored to weight our recommendations, particularly when certainty was low. We use five case studies to highlight critical gaps in knowledge that limit our understanding of ecosystem functioning. To inform the development of novel management strategies and research objectives, we identify taxa that support positive interactions and enhance ecosystem performance, including those where these roles are currently underappreciated. 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J. Hawkins, A. L. Allcock, A. E. Bates, A. J. Evans, L. B. Firth, C. D. McQuaid, B. D. Russell, I. P. Smith, S. E. Swearer, and P. A. Todd</rights><rights>Distributed under a Creative Commons Attribution 4.0 International License</rights><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c458t-930bb6e11ad2510a211f449b4f15816e4ed2aa83205090076b8a1298412e3cb23</citedby><orcidid>0000-0002-4261-5594</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Uhttps://ebookcentral.proquest.com/covers/6379434-l.jpg</thumbnail><link.rule.ids>779,780,784,793,885,27925,55310</link.rule.ids><backlink>$$Uhttps://univ-perp.hal.science/hal-03206487$$DView record in HAL$$Hfree_for_read</backlink></links><search><contributor>Allcock, A. L.</contributor><contributor>Evans, A. J.</contributor><contributor>Swearer, S. E.</contributor><contributor>Todd, P. A.</contributor><contributor>Smith, I. P.</contributor><contributor>Firth, L. B.</contributor><contributor>McQuaid, C. D.</contributor><contributor>Russell, B. D.</contributor><contributor>Bates, A. E.</contributor><contributor>Hawkins, S. J.</contributor><contributor>Swearer, S</contributor><contributor>Firth, L. B</contributor><contributor>Allcock, A. L</contributor><contributor>McQuaid, C</contributor><contributor>Bates, A. E</contributor><contributor>Todd, P</contributor><contributor>Evans, A</contributor><contributor>Hawkins, S. J</contributor><contributor>Russell, B</contributor><contributor>Smith, I. 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L.</au><au>Evans, A. J.</au><au>Swearer, S. E.</au><au>Todd, P. A.</au><au>Smith, I. P.</au><au>Firth, L. B.</au><au>McQuaid, C. D.</au><au>Russell, B. D.</au><au>Bates, A. E.</au><au>Hawkins, S. J.</au><au>Swearer, S</au><au>Firth, L. B</au><au>Allcock, A. L</au><au>McQuaid, C</au><au>Bates, A. E</au><au>Todd, P</au><au>Evans, A</au><au>Hawkins, S. J</au><au>Russell, B</au><au>Smith, I. P</au><format>book</format><genre>bookitem</genre><ristype>CHAP</ristype><atitle>Priority species to support the functional integrity of coral reefs</atitle><btitle>Oceanography and Marine Biology</btitle><date>2020</date><risdate>2020</risdate><volume>58</volume><issue>1</issue><spage>179</spage><epage>326</epage><pages>179-326</pages><isbn>0367524724</isbn><isbn>9780367367947</isbn><isbn>9780367524722</isbn><isbn>0367367947</isbn><isbn>9780429351495</isbn><isbn>0429351496</isbn><eisbn>1000163598</eisbn><eisbn>9781000163599</eisbn><eisbn>1000163733</eisbn><eisbn>9780429351495</eisbn><eisbn>9781000163735</eisbn><eisbn>0429351496</eisbn><abstract>Ecosystem-based management on coral reefs has historically focused on biodiversity conservation through the establishment of marine reserves, but it is increasingly recognised that a subset of species can be key to the maintenance of ecosystem processes and functioning. Specific provisions for these key taxa are essential to biodiversity conservation and resilience-based adaptive management. While a wealth of literature addresses ecosystem functioning on coral reefs, available information covers only a subset of specific taxa, ecological processes and environmental stressors. What is lacking is a comparative assessment across the diverse range of coral reef species to synthesise available knowledge to inform science and management. Here we employed expert elicitation coupled with a literature review to generate the first comprehensive assessment of 70 taxonomically diverse and functionally distinct coral reef species from microbes to top predators to summarise reef functioning. Although our synthesis is largely through the lens of the Great Barrier Reef, Australia, a particularly data-rich system, it is relevant to coral reefs in general. We use this assessment to evaluate which taxa drive processes that maintain a healthy reef, and whether or not management of these taxa is considered a priority (i.e. are they vulnerable?) or is feasible (i.e. can they be managed?). Scientific certainty was scored to weight our recommendations, particularly when certainty was low. We use five case studies to highlight critical gaps in knowledge that limit our understanding of ecosystem functioning. To inform the development of novel management strategies and research objectives, we identify taxa that support positive interactions and enhance ecosystem performance, including those where these roles are currently underappreciated. We conclude that current initiatives effectively capture many priority taxa, but that there is significant room to increase opportunities for underappreciated taxa in both science and management to maximally safeguard coral reef functioning.</abstract><cop>United Kingdom</cop><pub>CRC Press</pub><doi>10.1201/9780429351495-5</doi><oclcid>1236264816</oclcid><tpages>148</tpages><edition>1</edition><orcidid>https://orcid.org/0000-0002-4261-5594</orcidid><oa>free_for_read</oa></addata></record>
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identifier	ISBN: 0367524724
ispartof	Oceanography and Marine Biology, 2020, Vol.58 (1), p.179-326
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language	eng
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subjects	Allcock Annual Bates,B Biodiversity and Ecology Biology Biology, life sciences Environmental Sciences Evans Firth Hawkins Hydrobiology life sciences::PSP Hydrobiology::PSPM Marine biology Marine Marine biology Mathematics and Science Oceanography OMBAR Review Russell Smith Swearer thema EDItEUR thema EDItEUR::P Mathematics and Science::PS Biology Todd Volume
title	Priority species to support the functional integrity of coral reefs
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