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Research Article

Replenishment of fish populations is threatened by ocean acidification

Philip L. Munday, Danielle L. Dixson, Mark I. McCormick, Mark Meekan, Maud C. O. Ferrari, and Douglas P. Chivers
  1. aAustralian Research Council Centre of Excellence for Coral Reef Studies and School of Marine and Tropical Biology, James Cook University, Townsville, Queensland 4811, Australia;
  2. bAustralian Institute of Marine Science, Perth, Western Australia 6009, Australia;
  3. cDepartment of Environmental Science and Policy, University of California, Davis, CA 95616; and
  4. dDepartment of Biology, University of Saskatchewan, SK, Canada S7N 5E2

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PNAS July 20, 2010 107 (29) 12930-12934; https://doi.org/10.1073/pnas.1004519107
Philip L. Munday
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  • For correspondence: philip.munday@jcu.edu.au
Danielle L. Dixson
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Mark I. McCormick
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Mark Meekan
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Maud C. O. Ferrari
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Douglas P. Chivers
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  1. Edited by David Karl, University of Hawaii, Honolulu, HI, and approved June 10, 2010 (received for review April 5, 2010)

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Article Information

vol. 107 no. 29 12930-12934
DOI: 
https://doi.org/10.1073/pnas.1004519107
PubMed: 
20615968

Published By: 
National Academy of Sciences
Print ISSN: 
0027-8424
Online ISSN: 
1091-6490
History: 
  • Published in issue July 20, 2010.
  • Published first July 6, 2010.


Author Information

  1. Philip L. Mundaya,1,
  2. Danielle L. Dixsona,
  3. Mark I. McCormicka,
  4. Mark Meekanb,
  5. Maud C. O. Ferraric, and
  6. Douglas P. Chiversd
  1. aAustralian Research Council Centre of Excellence for Coral Reef Studies and School of Marine and Tropical Biology, James Cook University, Townsville, Queensland 4811, Australia;
  2. bAustralian Institute of Marine Science, Perth, Western Australia 6009, Australia;
  3. cDepartment of Environmental Science and Policy, University of California, Davis, CA 95616; and
  4. dDepartment of Biology, University of Saskatchewan, SK, Canada S7N 5E2
  1. Edited by David Karl, University of Hawaii, Honolulu, HI, and approved June 10, 2010 (received for review April 5, 2010)

Footnotes

  • 1To whom correspondence should be addressed. E-mail: philip.munday{at}jcu.edu.au.
  • Author contributions: P.L.M., D.L.D., M.I.M., M.M., M.C.O.F., and D.P.C. designed research; P.L.M., D.L.D., M.I.M., M.M., M.C.O.F., and D.P.C. performed research; P.L.M., D.L.D., and M.I.M. analyzed data; and P.L.M., D.L.D., M.I.M., M.M., M.C.O.F., and D.P.C. wrote the paper.

  • The authors declare no conflict of interest.

  • This article is a PNAS Direct Submission.

  • This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1004519107/-/DCSupplemental.

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      PLoS ONE 2014 9 1
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    • Impact of ocean acidification in the metabolism and swimming behavior of the dolphinfish (Coryphaena hippurus) early larvae
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      Marine Biology 2014 161 3
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      Global Change Biology 2017 23 6
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      Marine Pollution Bulletin 2014 80 1-2
    • Ocean acidification reverses competition for space as habitats degrade
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      Scientific Reports 2013 3 1
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      Nature Climate Change 2018 8 8
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      Proceedings of the Royal Society B: Biological Sciences 2015 282 1821
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      DM Parsons, CJ Sim-Smith, M Cryer, MP Francis, B Hartill, EG Jones, A Le Port, M Lowe, J McKenzie, M Morrison, LJ Paul, C Radford, PM Ross, KT Spong, T Trnski, N Usmar, C Walsh, J Zeldis
      New Zealand Journal of Marine and Freshwater Research 2014 48 2
    • Degradation of chemical alarm cues and assessment of risk throughout the day
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      A. F. Lopes, P. Morais, M. Pimentel, R. Rosa, P. L. Munday, E. J. Gonçalves, A. M. Faria
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    • Elevated CO2 increases energetic cost and ion movement in the marine fish intestine
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    • Ocean acidification affects predator avoidance behaviour but not prey detection in the early ontogeny of a keystone species
      PH Manríquez, ME Jara, ML Mardones, R Torres, JM Navarro, MA Lardies, CA Vargas, C Duarte, NA Lagos
      Marine Ecology Progress Series 2014 502
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      Journal of Comparative Physiology B 2018 188 1
    • A climate-informed, ecosystem approach to fisheries management
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      Marine Policy 2015 57
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      Environmental Biology of Fishes 2013 96 10-11
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      Current Biology 2017 27 14
    • Two‐current choice flumes for testing avoidance and preference in aquatic animals
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      Marine Ecology Progress Series 2013 477
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      Integrative and Comparative Biology 2017 57 1
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      Marine Biology 2013 160 8
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      Environmental Science & Technology 2014 48 17
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      Frontiers in Zoology 2015 12 1
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      Proceedings of the Royal Society B: Biological Sciences 2016 283 1833
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      Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 2012 370 1974
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      Deep Sea Research Part II: Topical Studies in Oceanography 2015 113
    • An interplay between plasticity and parental phenotype determines impacts of ocean acidification on a reef fish
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      Nature Ecology & Evolution 2018 2 2
    • Degraded Environments Alter Prey Risk Assessment
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    • Impact of exposure to elevated pCO2on the physiology and behaviour of an important ecosystem engineer, the burrowing shrimp Upogebia deltaura
      P Donohue, P Calosi, AH Bates, B Laverock, S Rastrick, FC Mark, A Strobel, S Widdicombe
      Aquatic Biology 2012 15 1
    • Ocean acidification alters predator behaviour and reduces predation rate
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      Biology Letters 2017 13 2
    • Ocean acidification does not impair the behaviour of coral reef fishes
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      Nature 2020 577 7790
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      PLOS ONE 2017 12 1
    • Effects of elevated CO2 on early life history development of the yellowtail kingfish, Seriola lalandi, a large pelagic fish
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      ICES Journal of Marine Science 2016 73 3
    • Foraging behaviour, swimming performance and malformations of early stages of commercially important fishes under ocean acidification and warming
      Marta S. Pimentel, Filipa Faleiro, Tiago Marques, Regina Bispo, Gisela Dionísio, Ana M. Faria, Jorge Machado, Myron A. Peck, Hans Pörtner, Pedro Pousão-Ferreira, Emanuel J. Gonçalves, Rui Rosa
      Climatic Change 2016 137 3-4
    • Hyperventilation and blood acid–base balance in hypercapnia exposed red drum (Sciaenops ocellatus)
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    • Climate change and the evolution of reef fishes: past and future
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      Fish and Fisheries 2017 18 1
    • Effects of CO2 and the harmful alga Aureococcus anophagefferens on growth and survival of oyster and scallop larvae
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      Marine Ecology Progress Series 2012 464
    • Effects of elevated CO2on predator avoidance behaviour by reef fishes is not altered by experimental test water
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      PeerJ 2016 4
    • Ocean acidification alters the burrowing behaviour, Ca2+/Mg2+-ATPase activity, metabolism, and gene expression of a bivalve species, Sinonovacula constricta
      C Peng, X Zhao, S Liu, W Shi, Y Han, C Guo, X Peng, X Chai, G Liu
      Marine Ecology Progress Series 2017 575
    • Effects of ocean acidification on the swimming ability, development and biochemical responses of sand smelt larvae
      Cátia S.E. Silva, Sara C. Novais, Marco F.L. Lemos, Susana Mendes, Ana P. Oliveira, Emanuel J. Gonçalves, Ana M. Faria
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    • Foraging behaviour of the epaulette shark Hemiscyllium ocellatum is not affected by elevated CO2
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      Rebecca G. Asch, William W.L. Cheung, Gabriel Reygondeau
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    • The swimming kinematics and foraging behavior of larval Atlantic herring (Clupea harengus L.) are unaffected by elevated pCO2
      Rommel H. Maneja, Andrea Y. Frommel, Howard I. Browman, Audrey J. Geffen, Arild Folkvord, Uwe Piatkowski, Caroline M.F. Durif, Reidun Bjelland, Anne Berit Skiftesvik, Catriona Clemmesen
      Journal of Experimental Marine Biology and Ecology 2015 466
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      International Journal for Parasitology 2014 44 12
    • Habitat degradation is threatening reef replenishment by making fish fearless
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    • Ocean acidification affects fish spawning but not paternity at CO 2 seeps
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    • Elevated carbon dioxide has the potential to impact alarm cue responses in some freshwater fishes
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      Marine Ecology Progress Series 2017 571
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      Journal of Environmental Management 2016 182
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    • The effects of elevatedpCO2on growth, shell production and metabolism of cultured juvenile abalone,Haliotis iris
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    • CO 2 -induced ocean acidification does not affect individual or group behaviour in a temperate damselfish
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    • Carbon Dioxide
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      2019 37
    • Climate change, fisheries, and aquaculture: trends and consequences for Canadian marine biodiversity 1This manuscript is a companion paper to Vander Zwaag et al. (doi:10.1139/a2012-013) and Hutchings et al. (doi:10.1139/er-2012-0049) also appearing in this issue. These three papers comprise an edited version of a February 2012 Royal Society of Canada Expert Panel Report.
      Jeffrey A. Hutchings, Isabelle M. Côté, Julian J. Dodson, Ian A. Fleming, S. Jennings, Nathan J. Mantua, Randall M. Peterman, Brian E. Riddell, Andrew J. Weaver
      Environmental Reviews 2012 20 4
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      Reviews in Fish Biology and Fisheries 2017 27 2
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      Journal of Sea Research 2018 139
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      2016 875
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      E. M. Borell, M. Steinke, M. Fine
      Coral Reefs 2013 32 4
    • Food ration does not influence the effect of elevated CO2 on antipredator behaviour of a reef fish
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      Analytica Chimica Acta 2013 786
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      M. Duteil, E. C. Pope, A. Pérez-Escudero, G. G. de Polavieja, I. Fürtbauer, M. R. Brown, A. J. King
      Royal Society Open Science 2016 3 11
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      Marine Environmental Research 2017 132
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      Oikos 2017 126 2
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    • Molecular, behavioral, and performance responses of juvenile largemouth bass acclimated to an elevated carbon dioxide environment
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      Earth System Dynamics 2018 9 2
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    • Painted Goby Larvae under High-CO2 Fail to Recognize Reef Sounds
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      PLOS ONE 2017 12 1
    • Principles for operationalizing climate change adaptation strategies to support the resilience of estuarine and coastal ecosystems: An Australian perspective
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      Marine Policy 2016 68
    • The proteome of Atlantic herring ( Clupea harengus L.) larvae is resistant to elevated p CO 2
      Rommel H. Maneja, R. Dineshram, Vengatesen Thiyagarajan, Anne Berit Skiftesvik, Andrea Y. Frommel, Catriona Clemmesen, Audrey J. Geffen, Howard I. Browman
      Marine Pollution Bulletin 2014 86 1-2
    • Effects of elevated dissolved carbon dioxide and perfluorooctane sulfonic acid, given singly and in combination, on steroidogenic and biotransformation pathways of Atlantic cod
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      Aquatic Toxicology 2014 155
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    • Effects of “Reduced” and “Business-As-Usual” CO2 Emission Scenarios on the Algal Territories of the Damselfish Pomacentrus wardi (Pomacentridae)
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      PLOS ONE 2015 10 6
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      Paolo Domenici, Bridie J M Allan, Christel Lefrançois, Mark I McCormick
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    • Acidification and γ -aminobutyric acid independently alter kairomone-induced behaviour
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      Royal Society Open Science 2016 3 9
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      Mark I. McCormick, Sue-Ann Watson, Stephen D. Simpson, Bridie J. M. Allan
      Proceedings of the Royal Society B: Biological Sciences 2018 285 1875
    • Copepod response to ocean acidification in a low nutrient-low chlorophyll environment in the NW Mediterranean Sea
      S. Zervoudaki, E. Krasakopoulou, T. Moutsopoulos, M. Protopapa, S. Marro, F. Gazeau
      Estuarine, Coastal and Shelf Science 2017 186
    • Effects of parental acclimation and energy limitation in response to high CO2 exposure in Atlantic cod
      M. H. Stiasny, F. H. Mittermayer, G. Göttler, C. R. Bridges, I.-B. Falk-Petersen, V. Puvanendran, A. Mortensen, T. B. H. Reusch, C. Clemmesen
      Scientific Reports 2018 8 1
    • Habitat disruption and the identification and management of functional trait changes
      Jennifer L Kelley, Pauline F Grierson, Shaun P Collin, Peter M Davies
      Fish and Fisheries 2018 19 4
    • Juvenile rockfish show resilience to CO2-acidification and hypoxia across multiple biological scales
      Brittany E Davis, Lisa M Komoroske, Matthew J Hansen, Jamilynn B Poletto, Emily N Perry, Nathan A Miller, Sean M Ehlman, Sarah G Wheeler, Andrew Sih, Anne E Todgham, Nann A Fangue
      Conservation Physiology 2018 6 1
    • No evidence of increased growth or mortality in fish exposed to oxazepam in semi-natural ecosystems
      A. Lagesson, T. Brodin, J. Fahlman, J. Fick, M. Jonsson, J. Persson, P. Byström, J. Klaminder
      Science of The Total Environment 2018 615
    • On the wrong track: ocean acidification attracts larval fish to irrelevant environmental cues
      Tullio Rossi, Jennifer C. A. Pistevos, Sean D. Connell, Ivan Nagelkerken
      Scientific Reports 2018 8 1
    • The influence of Pacific Equatorial Water on fish diversity in the southern California Current System
      Sam McClatchie, Andrew R. Thompson, Simone R. Alin, Samantha Siedlecki, William Watson, Steven J. Bograd
      Journal of Geophysical Research: Oceans 2016 121 8
    • The influence of high pCO2 on otolith shape, chemical and carbon isotope composition of six coastal fish species in a Mediterranean shallow CO2 vent
      Alice Mirasole, Bronwyn May Gillanders, Patrick Reis-Santos, Fausto Grassa, Giorgio Capasso, Giovanna Scopelliti, Antonio Mazzola, Salvatrice Vizzini
      Marine Biology 2017 164 9
    • Human Health and Ocean Pollution
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      Annals of Global Health 2020 86 1
    • Methods matter in repeating ocean acidification studies
      Philip L. Munday, Danielle L. Dixson, Megan J. Welch, Douglas P. Chivers, Paolo Domenici, Martin Grosell, Rachael M. Heuer, Geoffrey P. Jones, Mark I. McCormick, Mark Meekan, Göran E. Nilsson, Timothy Ravasi, Sue-Ann Watson
      Nature 2020 586 7830
    • Ocean acidification and responses to predators: can sensory redundancy reduce the apparent impacts of elevated CO2on fish?
      Oona M. Lönnstedt, Philip L. Munday, Mark I. McCormick, Maud C. O. Ferrari, Douglas P. Chivers
      Ecology and Evolution 2013
    • Short- and Medium-Term Exposure to Ocean Acidification Reduces Olfactory Sensitivity in Gilthead Seabream
      Zélia Velez, Christina C. Roggatz, David M. Benoit, Jörg D. Hardege, Peter C. Hubbard
      Frontiers in Physiology 2019 10
    • Swimming performance of marine fish larvae: review of a universal trait under ecological and environmental pressure
      Adam T. Downie, Björn Illing, Ana M. Faria, Jodie L. Rummer
      Reviews in Fish Biology and Fisheries 2020 30 1
    • Zebrafish (Danio rerio) behaviour is largely unaffected by elevated pCO2
      Laura E. Vossen, Fredrik Jutfelt, Arianna Cocco, Per-Ove Thörnqvist, Svante Winberg
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      2019 37
    • Climate Change Impacts on Fisheries and Aquaculture
      David J. Booth, Elvira Poloczanska, Jennifer M. Donelson, Jorge García Molinos, Mike Burrows
      2017
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      Nopparat Nasuchon, Mitsuharu Yagi, Yuuki Kawabata, Kunshan Gao, Atsushi Ishimatsu
      Fisheries Science 2016 82 3
    • Extreme low oxygen and decreased pH conditions naturally occur within developing squid egg capsules
      MH Long, TA Mooney, C Zakroff
      Marine Ecology Progress Series 2016 550
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      Sílvia F. Gregório, Ignacio Ruiz-Jarabo, Edison M. Carvalho, Juan Fuentes, José L. Soengas
      PLOS ONE 2019 14 6
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      Maud C.O. Ferrari, Mark I. McCormick, Sue-Ann Watson, Mark G. Meekan, Philip L. Munday, Douglas P. Chivers
      Integrative and Comparative Biology 2017 57 1
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      Frontiers in Ecology and Evolution 2018 6
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      Science of The Total Environment 2014 500-501
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      Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 2020 476 2237
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      Chingoileima Maibam, Patrick Fink, Giovanna Romano, Maria Cristina Buia, Emanuela Butera, Valerio Zupo
      Marine Ecology 2015 36 3
    • Characterization of a γ-aminobutyrate type A receptor-associated protein gene, which is involved in the response of Portunus trituberculatus to CO2 -induced ocean acidification
      Zhiming Ren, Changkao Mu, Ronghua Li, Weiwei Song, Chunlin Wang
      Aquaculture Research 2018 49 7
    • Genetic connectivity and self-replenishment of inshore and offshore populations of the endemic anemonefish, Amphiprion latezonatus
      Rosemary Steinberg, Martin van der Meer, Emily Walker, Michael L. Berumen, Jean-Paul A. Hobbs, Lynne van Herwerden
      Coral Reefs 2016 35 3
    • Interrelationships Between Corals and Fisheries
      Peter Sale, Mark Hixon
      2014 20141628
    • Mechanisms Involving Sensory Pathway Steps Inform Impacts of Global Climate Change on Ecological Processes
      Emily B. Rivest, Brittany Jellison, Gabriel Ng, Erin V. Satterthwaite, Hannah L. Bradley, Susan L. Williams, Brian Gaylord
      Frontiers in Marine Science 2019 6
    • Neural effects of elevated CO2 in fish may be amplified by a vicious cycle
      Celia Schunter, Timothy Ravasi, Philip L Munday, Göran E Nilsson, Steven Cooke
      Conservation Physiology 2019 7 1
    • Shifts in seawater chemistry disrupt trophic links within a simple shoreline food web
      Brittany M. Jellison, Brian Gaylord
      Oecologia 2019 190 4
    • Stakeholder-Informed Ecosystem Modeling of Ocean Warming and Acidification Impacts in the Barents Sea Region
      Stefan Koenigstein, Matthias Ruth, Stefan Gößling-Reisemann
      Frontiers in Marine Science 2016 3
    • Starvation rates in larval and juvenile Atlantic silversides (Menidia menidia) are unaffected by high CO2 conditions
      Hannes Baumann, Elle M. Parks, Christopher S. Murray
      Marine Biology 2018 165 4
    • The effect of low frequency noise on the behaviour of juvenile Sparus aurata
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      Rebecca L. Zlatkin, Rachael M. Heuer
      Royal Society Open Science 2019 6 10
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      Jessica F. Andrade, Thomas P. Hurst, Jessica A. Miller
      Journal of Sea Research 2018 140
    • Climate Change Impacts on Fisheries and Aquaculture
      David J. Booth, David Feary, Donald Kobayashi, Osmar Luiz, Yohei Nakamura
      2017
    • Expression of genes involved in brain GABAergic neurotransmission in three-spined stickleback exposed to near-future CO2
      Floriana Lai, Cathrine E. Fagernes, Fredrik Jutfelt, Göran E. Nilsson
      Conservation Physiology 2016 4 1
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      James G. Speight, Nour Shafik El-Gendy
      2018
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      Divya Chaturvedi, O.P. Misra
      Nonlinear Analysis: Real World Applications 2019 46
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      Philip M. Gravinese, Ian C. Enochs, Derek P. Manzello, Robert van Woesik
      Biology Letters 2019 15 12
    • Banggai cardinalfish and its microhabitats in a warming world: a preliminary study
      A M Moore, S Ndobe, I Yasir, R Ambo-Rappe, J Jompa
      IOP Conference Series: Earth and Environmental Science 2019 253
    • Behavioural responses of fish groups exposed to a predatory threat under elevated CO2
      C. Cattano, M. Fine, F. Quattrocchi, R. Holzman, M. Milazzo
      Marine Environmental Research 2019 147
    • Coral Bleaching
      R. Albright
      2018 233
    • Coral degradation alters predator odour signatures and influences prey learning and survival
      D. P. Chivers, M. I. McCormick, E. P. Fakan, R. P. Barry, J. W. Edmiston, M. C. O. Ferrari
      Proceedings of the Royal Society B: Biological Sciences 2019 286 1903
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      Katsumi Matsumoto, Ben McNeil
      Journal of Climate 2013 26 5
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      Seth H. Miller, Sonia Zarate, Edmund H. Smith, Brian Gaylord, Jessica D. Hosfelt, Tessa M. Hill, Gretchen E. Hofmann
      PLoS ONE 2014 9 10
    • Food Rights, Food Frugality, and Climate Change
      Lynn Vincentnathan
      Food and Foodways 2012 20 1
    • Managing Ocean Environments in a Changing Climate
      Carol Turley
      2013
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      Ivan Nagelkerken, Kylie A. Pitt, Melchior D. Rutte, Robbert C. Geertsma
      Proceedings of the Royal Society B: Biological Sciences 2016 283 1833
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      Cátia S.E. Silva, Marco F.L. Lemos, Ana M. Faria, Ana F. Lopes, Susana Mendes, Emanuel J. Gonçalves, Sara C. Novais
      Ecotoxicology and Environmental Safety 2018 154
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      Clara J. Deal, Nadja Steiner, Jim Christian, Jaclyn Clement Kinney, Ken L. Denman, Scott M. Elliott, Georgina Gibson, Meibing Jin, Diane Lavoie, Sang H. Lee, Warren Lee, Wieslaw Maslowski, Jia Wang, Eiji Watanabe
      2014
    • The past, present and future of cleaner fish cognitive performance as a function of CO 2 levels
      José Ricardo Paula, Miguel Baptista, Francisco Carvalho, Tiago Repolho, Redouan Bshary, Rui Rosa
      Biology Letters 2019 15 12
    • Anthropogenic forcing of fish boldness and its impacts on ecosystem structure
      Wei Wang, Nuo Xu, Lai Zhang, Ken H. Andersen, Jonatan Klaminder
      Global Change Biology 2021 27 6
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      M. Chande, I.A. Kimirei, M.M. Igulu, B. Kuguru, R. Kayanda, C. Mwakosya, S.J. Kangwe, J. Sululu, E. Ulotu
      Regional Studies in Marine Science 2019 27
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      Guang Yang, Robert A. King, So Kawaguchi
      Polar Biology 2018 41 4
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      Danielle A. Poulton, Cosima S. Porteus, Stephen D. Simpson, Francis Juanes
      ICES Journal of Marine Science 2017 74 4
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      Graham D. Raby, Josefin Sundin, Fredrik Jutfelt, Steven J. Cooke, Timothy D. Clark
      Journal of Fish Biology 2018 93 1
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      Alice Mirasole, Geraldina Signa, Paola Gianguzza, Chiara Bonaviri, Antonio Mazzola, Salvatrice Vizzini
      Marine Environmental Research 2020 157
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      Ning Sun, Richard L. Skaggs, Mark S. Wigmosta, André M. Coleman, Michael H. Huesemann, Scott J. Edmundson
      Algal Research 2020 49
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      Scott L. Hamilton, Neosha S Kashef, David M. Stafford, Evan G. Mattiasen, Lauren A. Kapphahn, Cheryl A. Logan, Eric P. Bjorkstedt, Susan M. Sogard
      Journal of Experimental Marine Biology and Ecology 2019 521
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      M. D. Robertson, M. F. Hernandez, S. R. Midway, C. T. Hasler, C. D. Suski
      Aquatic Ecology 2018 52 2-3
    • Agroclimatology
      A.J. Lynch, J.R. MacMillan
      2018
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      Jean-Claude Abboud, Edgar A. Bartolome, Mayra Blanco, Annalise C. Kress, Ian Y. Ellis, Perry K. Yazzolino, Kamrin I. Sorensen, James R. Winslow, David A. Cleary, Hugh Lefcort
      Hydrobiologia 2019 829 1
    • Climate Change Modeling, Mitigation, and Adaptation
      Gurpreet S. Dhillon, C. M. Ajila, Surinder Kaur, Satinder K. Brar, Mausam Verma, R. D. Tyagi, Rao Y. Surampalli
      2013
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      Michael D. Jarrold, Megan J. Welch, Shannon J. McMahon, Tristan McArley, Bridie J.M. Allan, Sue-Ann Watson, Darren M. Parsons, Stephen M.J. Pether, Stephen Pope, Simon Nicol, Neville Smith, Neill Herbert, Philip L. Munday
      Marine Environmental Research 2020 157
    • Geological Storage of Carbon Dioxide (CO2)
      J. Blackford, C. Hattam, S. Widdicombe, N. Burnside, M. Naylor, K. Kirk, P. Maul, I. Wright
      2013
    • Impact of ocean acidification on growth, onset of competence, and perception of cues for metamorphosis in larvae of the slippershell snail, Crepidula fornicata
      J. A. Pechenik, A. Pires, J. Trudel, M. Levy, T. Dooley, A. Resnikoff, R. E. Taylor
      Marine Biology 2019 166 10
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      Leonie Pötter, Nina Krebs, Martin Horstmann, Ralph Tollrian, Linda C. Weiss
      Zoology 2021 146
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      2014
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      Nature 2020 586 7830
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      2016
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      T. G. Schwemmer, H. Baumann, C. S. Murray, A. I. Molina, J. A. Nye
      The Journal of Experimental Biology 2020 223 22
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      Global Change Biology 2021
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      2017
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      2019
    • Climate Vulnerability
      E.S. Darling, I.M. Côté
      2013
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      Humberto Diaz, Beatriz Orihuela, Julio Baque, Victor Borbor
      Journal of Shellfish Research 2016 35 1
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      Eun Hye Lee, Seo Yeol Choi, Min Ho Seo, Seok Ju Lee, Ho Young Soh
      Diversity 2020 12 10
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      Scientific Reports 2019 9 1
    • Encyclopedia of Biodiversity
      Malin L. Pinsky, Kristy J. Kroeker, Daniel J. Barshis, Cheryl A. Logan
      2013
    • Encyclopedia of the Anthropocene
      S.A. Elias
      2018
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      Chelsea Martin, Brenda Parlee, Morris Neyelle
      Sustainability 2020 12 19
    • Managing Ocean Environments in a Changing Climate
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      2013
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      Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 2021 256
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      PLOS ONE 2020 15 4
    • Oceanic Acidification
      2011
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      Frontiers in Marine Science 2018 5
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      2021
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      Scott Elias
      2018
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      Science of The Total Environment 2021 778
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    Article usage

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    AbstractFullPdf
    Jun 2010301
    Jul 2010529563567
    Aug 201090857188
    Sep 201048979147
    Oct 201039481109
    Nov 20102505679
    Dec 20101912536
    Total 201075303611127
    Jan 20113343478
    Feb 201121672106
    Mar 201124388118
    Apr 20111195672
    May 20111253859
    Jun 20111031381
    Jul 20111634050
    Aug 20111352769
    Sep 20111256451
    Oct 20111625767
    Nov 20111665182
    Dec 20111124655
    Total 20112003586888
    Jan 20121104460
    Feb 20121274162
    Mar 201230258119
    Apr 20121483560
    May 2012904354
    Jun 2012941851
    Jul 2012892153
    Aug 2012944255
    Sep 2012863840
    Oct 20121212864
    Nov 20121664072
    Dec 2012963039
    Total 20121523438729
    Jan 20131262647
    Feb 20131645362
    Mar 20131797397
    Apr 20131424668
    May 20131123129
    Jun 2013892820
    Jul 2013721224
    Aug 2013801333
    Sep 20132292340
    Oct 20132115382
    Nov 201319614568
    Dec 20131575047
    Total 20131757553617
    Jan 20141304032
    Feb 20141498245
    Mar 20141958664
    Apr 20141386443
    May 20141335037
    Jun 20141642826
    Jul 20141092723
    Aug 20141183331
    Sep 20141506153
    Oct 20142208251
    Nov 20141768936
    Dec 20141689431
    Total 20141850736472
    Jan 201513015832
    Feb 201515923242
    Mar 201514620053
    Apr 20151218425
    May 201512210025
    Jun 2015686821
    Jul 2015481421
    Aug 2015762821
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    Oct 20151777363
    Nov 20152248439
    Dec 20151825739
    Total 201515781156418
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    Feb 2016956137
    Mar 2016779256
    Apr 2016906329
    May 2016922914
    Jun 2016995429
    Jul 20161093217
    Aug 2016915332
    Sep 201621410131
    Oct 2016271123100
    Nov 2016317181176
    Dec 20161869190
    Total 20161775947661
    Jan 20172227351
    Feb 20172087938
    Mar 201724411145
    Apr 20171988738
    May 20171426422
    Jun 2017823422
    Jul 2017812229
    Aug 2017953116
    Sep 20171356050
    Oct 20172029156
    Nov 201715511157
    Dec 2017843023
    Total 20171848793447
    Jan 20181096145
    Feb 201814612656
    Mar 201816211857
    Apr 201833831367
    May 201821715667
    Jun 201815411022
    Jul 20181159339
    Aug 20181037423
    Sep 201818112272
    Oct 201897189116
    Nov 201810327487
    Dec 20183716130
    Total 201817621797681
    Jan 20196213480
    Feb 20197310362
    Mar 20198911485
    Apr 201910211495
    May 20197011875
    Jun 2019416842
    Jul 2019557728
    Aug 2019315130
    Sep 2019727452
    Oct 201910614999
    Nov 20197412068
    Dec 2019539958
    Total 20198281221774
    Jan 2020103602181
    Feb 202074171131
    Mar 202069163106
    Apr 202077210137
    May 202070143100
    Jun 2020289835
    Jul 2020156231
    Aug 20203710064
    Sep 20207014586
    Oct 20209720091
    Nov 2020111196112
    Dec 20209713482
    Total 202084822241156
    Jan 20215811074
    Feb 20216212280
    Mar 20217114875
    Apr 20214510540
    Total 2021236485269
    Total23538112978239
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    Replenishment of fish populations is threatened by ocean acidification
    Philip L. Munday, Danielle L. Dixson, Mark I. McCormick, Mark Meekan, Maud C. O. Ferrari, Douglas P. Chivers
    Proceedings of the National Academy of Sciences Jul 2010, 107 (29) 12930-12934; DOI: 10.1073/pnas.1004519107

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    Replenishment of fish populations is threatened by ocean acidification
    Philip L. Munday, Danielle L. Dixson, Mark I. McCormick, Mark Meekan, Maud C. O. Ferrari, Douglas P. Chivers
    Proceedings of the National Academy of Sciences Jul 2010, 107 (29) 12930-12934; DOI: 10.1073/pnas.1004519107
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