This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.
Albright R., Caldeira L, Hosfelt J., Kwiatkowski L., Maclaren J.K., Mason B.M., Nebuchina Y., Ninokawa A., Pongratz J., Ricke K.L., Rivlin T., Schneider K., Sesboüé M., Shamberger K., Silverman J., Wolfe K., Zhu K., Caldeira K., 2016. Reversal of ocean acidification enhances net coral reef calcification. Nature: 531: 362–365.AlbrightR.CaldeiraLHosfeltJ.KwiatkowskiL.MaclarenJ.K.MasonB.M.NebuchinaY.NinokawaA.PongratzJ.RickeK.L.RivlinT.SchneiderK.SesboüéM.ShambergerK.SilvermanJ.WolfeK.ZhuK.CaldeiraK.2016Reversal of ocean acidification enhances net coral reef calcification53136236510.1038/nature1715526909578Search in Google Scholar
Australian Government’s Great Barrier Reef Marine Park Authority. 2019. Online: www.gbrmpa.gov.au/our-work/threats-to-the-reef/climate-change/ocean-acidifi-cation%20 (accessed Juky 11, 2019)2019www.gbrmpa.gov.au/our-work/threats-to-the-reef/climate-change/ocean-acidifi-cation%20accessed Juky 11, 2019Search in Google Scholar
Berner R.A., Kothavala Z., 2001. A revised model of atmospheric CO2 over Phanerozoic time. American Journal of Science 301: 182–204.BernerR.A.KothavalaZ.2001A revised model of atmospheric CO2 over Phanerozoic time30118220410.2475/ajs.301.2.182Search in Google Scholar
Bourman R.P., Murray-Wallace C.V., Harvey N., 2016. Coastal Landscapes of South Australia. University of Adelaide Press, Adelaide. 420pp. DOI: 10.20851 /coast-sa.BourmanR.P.Murray-WallaceC.V.HarveyN.2016University of Adelaide PressAdelaide42010.20851/coast-saOpen DOISearch in Google Scholar
Broecker W. 2011. Foreword. In: J.-P. Gasutto, L. Hansson (eds.), Ocean Acidification Oxford University Press: v–vii.BroeckerW.2011ForewordGasuttoJ.-P.HanssonL.(eds.)Oxford University PressvviiSearch in Google Scholar
Caldeira K., Wickett M.E., 2003. Anthropogenic carbon and ocean pH. Nature 425: 365.CaldeiraK.WickettM.E.2003Anthropogenic carbon and ocean pH42536510.1038/425365a14508477Search in Google Scholar
Delingpole J. 2014. NOAAgate: how ‘ocean acidification’ could turn out to be the biggest con since Michael Mann’s Hockey Stick. Brietbart, 23 December 2014.DelingpoleJ.2014NOAAgate: how ‘ocean acidification’ could turn out to be the biggest con since Michael Mann’s Hockey Stick23 December 2014Search in Google Scholar
Doogue J., Nova J., 2015. Oceans not acidifying – “scientist” hid 80 years of pH data. Online: joannenova.com.au/2015/01/oceans-not-acidifying-scientists-hid-80-years-of-ph-data/ (accessed July 11, 2019).DoogueJ.NovaJ.2015joannenova.com.au/2015/01/oceans-not-acidifying-scientists-hid-80-years-of-ph-data/accessed July 11, 2019Search in Google Scholar
Feely R.A., Sabine C.L., Lee K., Berelson W., Kleypas J., Fabry VJ, Millero FJ., 2004. Impact of anthropogenic CO2 on the CaCO3 system in the oceans. Science 305(5682): 362–366.FeelyR.A.SabineC.L.LeeK.BerelsonW.KleypasJ.FabryVJMilleroFJ.2004Impact of anthropogenic CO2 on the CaCO3 system in the oceans305568236236610.1126/science.109732915256664Search in Google Scholar
Gasutto J.-P., Hansson L. (eds.), 2011. Ocean Acidification Oxford University Press.GasuttoJ.-P.HanssonL(eds.)2011Oxford University Press10.1093/oso/9780199591091.001.0001Search in Google Scholar
Hendriks I.E., Duarte C.M., Alvarez M., 2010. Vulnerability of marine biodiversity to ocean acidification: A meta-analysis. Estuarine, Coastal and Shelf Science 86: 157–164.HendriksI.E.DuarteC.M.AlvarezM.2010Vulnerability of marine biodiversity to ocean acidification: A meta-analysis8615716410.1016/j.ecss.2009.11.022Search in Google Scholar
Henry W., 1803. Experiments on the quantity of gases absorbed by water, at different temperatures, and under different pressures. Philosophical Transactions of the Royal Society 93: 29–274. DOI: 10.1098/rstl.1803.0004.HenryW.1803Experiments on the quantity of gases absorbed by water, at different temperatures, and under different pressures932927410.1098/rstl.1803.0004Open DOISearch in Google Scholar
Herfort L., Thake B., Taubner I., 2008. Bicarbonate stimulation of calcification and photosynthesis in two hermatypic corals. Journal of Phycology 44: 91–98.HerfortL.ThakeB.TaubnerI.2008Bicarbonate stimulation of calcification and photosynthesis in two hermatypic corals44919810.1111/j.1529-8817.2007.00445.x27041045Search in Google Scholar
IPCC [Intergovernmental Panel on Climate Change], 2018. Global Warming of 1.5°C.An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty [Masson-Delmotte, V., P. Zhai, H.-O. Pörtner, D. Roberts, J. Skea, P.R. Shukla, A. Pirani, W. Moufouma-Okia, C. Péan, R. Pidcock, S. Connors, J.B.R. Matthews, Y. Chen, X. Zhou, M.I. Gomis, E. Lonnoy, T. Maycock, M. Tignor, and T. Waterfield (eds.)].IPCC [Intergovernmental Panel on Climate Change]2018Masson-DelmotteV.ZhaiP.PörtnerH.-O.RobertsD.SkeaJ.ShuklaP.R.PiraniA.Moufouma-OkiaW.PéanC.PidcockR.ConnorsS.MatthewsJ.B.R.ChenY.ZhouX.GomisM.I.LonnoyvMaycockT.TignorM.WaterfieldT.(eds.)Search in Google Scholar
Kerrison P., Hall-Spencer J., Suggett D., Hepburn L., Steinke M., .2011. Assessment of pH variability at a coastal CO2 vent for ocean acidification studies. Estuarine and Coastal Marine Science 94: 129–137.KerrisonP.Hall-SpencerJ.SuggettD.HepburnL.SteinkeM.2011Assessment of pH variability at a coastal CO2 vent for ocean acidification studies9412913710.1016/j.ecss.2011.05.025Search in Google Scholar
Mcculloch M.T., D’olivo J.P., Falter J., Holcomb M., Trotter J.A., 2017. Coral calcification in a changing world and the interactive dynamics of pH and DIC upregulation. Nature Communications 8: 15866.MccullochM.T.D’olivoJ.P.FalterJ.HolcombM.TrotterJ.A.2017Coral calcification in a changing world and the interactive dynamics of pH and DIC upregulation81586610.1038/ncomms15686549920328555644Search in Google Scholar
NASA [National Aeronautics and Space Administration], 2019. Global Climate Change – Vital Signs of the Planet. Online: climate.nasa.gov/evidence/ (accessed July 11, 2019).NASA [National Aeronautics and Space Administration]2019climate.nasa.gov/evidence/accessed July 11, 2019Search in Google Scholar
Pardew J., Pimentel M.B., Low-Decarie E., 2018. Predictable ecological response to rising CO2 of a community of marine phytoplankton. Ecology and Evolution 8: 4292–4302.PardewJ.PimentelM.B.Low-DecarieE.2018Predictable ecological response to rising CO2 of a community of marine phytoplankton84292430210.1002/ece3.3971591631129721298Search in Google Scholar
Segalstad T.V., 2014. Some thoughts on Ocean Chemistry. Nongovernmental International Panel on Climate ChangeNIPCC Reports Climate Change Reconsidered II – Biological impacts 817–823.SegalstadT.V.2014Some thoughts on Ocean Chemistry817823Search in Google Scholar
Starck W., 2010. Observations on Growth of Reef Corals and Sea Grass Around Shallow Water Geothermal Vents in Papua New Guinea. Quadrant Online 15 March 2010.StarckW.2010Observations on Growth of Reef Corals and Sea Grass Around Shallow Water Geothermal Vents in Papua New Guinea15 March 2010Search in Google Scholar
Wallace M., 2015. Ocean pH Accuracy Arguments Challenged with 80 Years of Instrumental Data. Watts Up With That, March 31, 2015. Online: wattsupwiththat.com/2015/03/31/ocean-ph-accuracy-arguments-chal-lenged-with-80-years-of-instrumental-data/ (accessed July 11, 2019).WallaceM.2015Ocean pH Accuracy Arguments Challenged with 80 Years of Instrumental DataMarch 31, 2015. Onlinewattsupwiththat.com/2015/03/31/ocean-ph-accuracy-arguments-chal-lenged-with-80-years-of-instrumental-data/accessed July 11, 2019Search in Google Scholar