Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With Warming

Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With Warming

Interpreting the vulnerability of pelagic calcifiers to ocean acidification (OA) is enhanced by an understanding of their critical thresholds and how these thresholds are modified by other climate change stressors (e.g., warming). To address this need, we undertook a three-part data synthesis for pt...

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Main Authors: Nina Bednaršek, Richard Alan Feely, Ella L. Howes, Brian P. V. Hunt, Faycal Kessouri, Pablo León, Silke Lischka, Amy E. Maas, Karen McLaughlin, Nikolay P. Nezlin, Martha Sutula, Stephen B. Weisberg
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-05-01
Series:Frontiers in Marine Science
Subjects:
ocean acidification
warming
water quality criteria
thresholds
pteropods
meta-analyses
Online Access:https://www.frontiersin.org/article/10.3389/fmars.2019.00227/full
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spelling doaj-adcbd49572ff402cbb5a567388b4edbf2020-11-25T02:23:38ZengFrontiers Media S.A.Frontiers in Marine Science2296-77452019-05-01610.3389/fmars.2019.00227440991Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With WarmingNina Bednaršek0Richard Alan Feely1Ella L. Howes2Brian P. V. Hunt3Brian P. V. Hunt4Brian P. V. Hunt5Faycal Kessouri6Pablo León7Silke Lischka8Amy E. Maas9Karen McLaughlin10Nikolay P. Nezlin11Martha Sutula12Stephen B. Weisberg13Southern California Coastal Water Research Project, Costa Mesa, CA, United StatesNOAA Pacific Marine Environmental Laboratory, Seattle, WA, United StatesCentre for Environment, Fisheries and Aquaculture Science, Marine Climate Change Centre, Lowestoft, United KingdomInstitute for the Oceans and Fisheries, University of British Columbia, Vancouver, BC, CanadaHakai Institute, Heriot Bay, BC, CanadaDepartment of Earth, Ocean, and Atmospheric Sciences, University of British Columbia, Vancouver, BC, CanadaSouthern California Coastal Water Research Project, Costa Mesa, CA, United StatesMarine Scotland Science, Aberdeen, United KingdomGEOMAR Helmholtz Centre for Ocean Research, Kiel, GermanyBermuda Institute of Ocean Sciences, St. George's, BermudaSouthern California Coastal Water Research Project, Costa Mesa, CA, United StatesSouthern California Coastal Water Research Project, Costa Mesa, CA, United StatesSouthern California Coastal Water Research Project, Costa Mesa, CA, United StatesSouthern California Coastal Water Research Project, Costa Mesa, CA, United StatesInterpreting the vulnerability of pelagic calcifiers to ocean acidification (OA) is enhanced by an understanding of their critical thresholds and how these thresholds are modified by other climate change stressors (e.g., warming). To address this need, we undertook a three-part data synthesis for pteropods, one of the calcifying zooplankton group. We conducted the first meta-analysis and threshold analysis of literature characterizing pteropod responses to OA and warming by synthetizing dataset comprising of 2,097 datapoints. Meta-analysis revealed the extent to which responses among studies conducted on differing life stages and disparate geographies could be integrated into a common analysis. The results demonstrated reduced calcification, growth, development, and survival to OA with increased magnitude of sensitivity in the early life stages, under prolonged duration, and with the concurrent exposure of OA and warming, but not species-specific sensitivity. Second, breakpoint analyses identified OA thresholds for several endpoints: dissolution (mild and severe), calcification, egg development, shell growth, and survival. Finally, consensus by a panel of pteropod experts was used to verify thresholds and assign confidence scores for five endpoints with a sufficient signal: noise ratio to develop life-stage specific, duration-dependent thresholds. The range of aragonite saturation state from 1.5–0.9 provides a risk range from early warning to lethal impacts, thus providing a rigorous basis for vulnerability assessments to guide climate change management responses, including an evaluation of the efficacy of local pollution management. In addition, meta-analyses with OA, and warming shows increased vulnerability in two pteropod processes, i.e., shell dissolution and survival, and thus pointing toward increased threshold sensitivity under combined stressor effect.https://www.frontiersin.org/article/10.3389/fmars.2019.00227/fullocean acidificationwarmingwater quality criteriathresholdspteropodsmeta-analyses
collection DOAJ
language English
format Article
sources DOAJ
author Nina Bednaršek
Richard Alan Feely
Ella L. Howes
Brian P. V. Hunt
Brian P. V. Hunt
Brian P. V. Hunt
Faycal Kessouri
Pablo León
Silke Lischka
Amy E. Maas
Karen McLaughlin
Nikolay P. Nezlin
Martha Sutula
Stephen B. Weisberg
spellingShingle Nina Bednaršek
Richard Alan Feely
Ella L. Howes
Brian P. V. Hunt
Brian P. V. Hunt
Brian P. V. Hunt
Faycal Kessouri
Pablo León
Silke Lischka
Amy E. Maas
Karen McLaughlin
Nikolay P. Nezlin
Martha Sutula
Stephen B. Weisberg
Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With Warming
Frontiers in Marine Science
ocean acidification
warming
water quality criteria
thresholds
pteropods
meta-analyses
author_facet Nina Bednaršek
Richard Alan Feely
Ella L. Howes
Brian P. V. Hunt
Brian P. V. Hunt
Brian P. V. Hunt
Faycal Kessouri
Pablo León
Silke Lischka
Amy E. Maas
Karen McLaughlin
Nikolay P. Nezlin
Martha Sutula
Stephen B. Weisberg
author_sort Nina Bednaršek
title Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With Warming
title_short Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With Warming
title_full Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With Warming
title_fullStr Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With Warming
title_full_unstemmed Systematic Review and Meta-Analysis Toward Synthesis of Thresholds of Ocean Acidification Impacts on Calcifying Pteropods and Interactions With Warming
title_sort systematic review and meta-analysis toward synthesis of thresholds of ocean acidification impacts on calcifying pteropods and interactions with warming
publisher Frontiers Media S.A.
series Frontiers in Marine Science
issn 2296-7745
publishDate 2019-05-01
description Interpreting the vulnerability of pelagic calcifiers to ocean acidification (OA) is enhanced by an understanding of their critical thresholds and how these thresholds are modified by other climate change stressors (e.g., warming). To address this need, we undertook a three-part data synthesis for pteropods, one of the calcifying zooplankton group. We conducted the first meta-analysis and threshold analysis of literature characterizing pteropod responses to OA and warming by synthetizing dataset comprising of 2,097 datapoints. Meta-analysis revealed the extent to which responses among studies conducted on differing life stages and disparate geographies could be integrated into a common analysis. The results demonstrated reduced calcification, growth, development, and survival to OA with increased magnitude of sensitivity in the early life stages, under prolonged duration, and with the concurrent exposure of OA and warming, but not species-specific sensitivity. Second, breakpoint analyses identified OA thresholds for several endpoints: dissolution (mild and severe), calcification, egg development, shell growth, and survival. Finally, consensus by a panel of pteropod experts was used to verify thresholds and assign confidence scores for five endpoints with a sufficient signal: noise ratio to develop life-stage specific, duration-dependent thresholds. The range of aragonite saturation state from 1.5–0.9 provides a risk range from early warning to lethal impacts, thus providing a rigorous basis for vulnerability assessments to guide climate change management responses, including an evaluation of the efficacy of local pollution management. In addition, meta-analyses with OA, and warming shows increased vulnerability in two pteropod processes, i.e., shell dissolution and survival, and thus pointing toward increased threshold sensitivity under combined stressor effect.
topic ocean acidification
warming
water quality criteria
thresholds
pteropods
meta-analyses
url https://www.frontiersin.org/article/10.3389/fmars.2019.00227/full
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