Anthropogenic ocean acidification over the twenty-first century and its impact on calcifying organisms
James C. Orr,Victoria J. Fabry,Olivier Aumont,Laurent Bopp,Scott C. Doney,Richard A. Feely,Anand Gnanadesikan,Nicolas Gruber,Akio Ishida,Fortunat Joos,Robert M. Key,Keith Lindsay,Ernst Maier-Reimer,Richard J. Matear,Patrick Monfray,Anne Mouchet,Raymond G. Najjar,Gian-Kasper Plattner,Keith B. Rodgers,Christopher L. Sabine,Jorge L. Sarmiento,Reiner Schlitzer,Richard D. Slater,I. Totterdell,Marie-France Weirig,Yasuhiro Yamanaka,Andrew Yool +26 more
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13 models of the ocean–carbon cycle are used to assess calcium carbonate saturation under the IS92a ‘business-as-usual’ scenario for future emissions of anthropogenic carbon dioxide and indicate that conditions detrimental to high-latitude ecosystems could develop within decades, not centuries as suggested previously.Abstract:
Today's surface ocean is saturated with respect to calcium carbonate, but increasing atmospheric carbon dioxide concentrations are reducing ocean pH and carbonate ion concentrations, and thus the level of calcium carbonate saturation. Experimental evidence suggests that if these trends continue, key marine organisms—such as corals and some plankton—will have difficulty maintaining their external calcium carbonate skeletons. Here we use 13 models of the ocean–carbon cycle to assess calcium carbonate saturation under the IS92a 'business-as-usual' scenario for future emissions of anthropogenic carbon dioxide. In our projections, Southern Ocean surface waters will begin to become undersaturated with respect to aragonite, a metastable form of calcium carbonate, by the year 2050. By 2100, this undersaturation could extend throughout the entire Southern Ocean and into the subarctic Pacific Ocean. When live pteropods were exposed to our predicted level of undersaturation during a two-day shipboard experiment, their aragonite shells showed notable dissolution. Our findings indicate that conditions detrimental to high-latitude ecosystems could develop within decades, not centuries as suggested previously.read more
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Calcification and organic production on a Hawaiian coral reef
Kathryn E. F. Shamberger,Kathryn E. F. Shamberger,Richard A. Feely,Christopher L. Sabine,M. J. Atkinson,E.H. DeCarlo,Fred T. Mackenzie,P. S. Drupp,David A. Butterfield +8 more
TL;DR: It appears that while calcification rate and Ω arag are correlated within a single coral reef ecosystem, this relationship does not necessarily hold between different coral reef systems.
Journal ArticleDOI
Insights into shell deposition in the Antarctic bivalve Laternula elliptica : gene discovery in the mantle transcriptome using 454 pyrosequencing
Melody S. Clark,Michael A. S. Thorne,Florbela A. Vieira,João C.R. Cardoso,Deborah M. Power,Lloyd S. Peck +5 more
TL;DR: Results indicated that the mantle of the Antarctic clam is a transcriptionally active tissue which is actively proliferating, and has considerably increased resources for the investigation of the processes of shell deposition and repair in molluscs in a changing environment.
Journal ArticleDOI
Atmospheric CO2 stabilization and ocean acidification
Long Cao,Ken Caldeira +1 more
TL;DR: In this paper, a coupled climate/carbon cycle model is used to examine the consequences of stabilizing atmospheric CO2 at different levels for ocean chemistry, and the authors show the potential for major damage to at least some ocean ecosystems at CO2 stabilization levels as low as 450 ppm.
Journal ArticleDOI
Effects of ocean acidification on learning in coral reef fishes.
Maud C. O. Ferrari,R. P. Manassa,Danielle L. Dixson,Philip L. Munday,Mark I. McCormick,Mark G. Meekan,Andrew Sih,Douglas P. Chivers +7 more
TL;DR: Results indicate that exposure to CO2 may alter the cognitive ability of juvenile fish and render learning ineffective, and mitigate the effects of ocean acidification by restoring the appropriate responses of prey to predators.
References
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The NCEP/NCAR 40-Year Reanalysis Project
Eugenia Kalnay,Masao Kanamitsu,Robert Kistler,William D. Collins,D.G. Deaven,L. S. Gandin,M. Iredell,Suranjana Saha,Glenn H. White,John S. Woollen,Yuejian Zhu,Muthuvel Chelliah,Wesley Ebisuzaki,Wayne Higgins,John E. Janowiak,Kingtse C. Mo,Chester F. Ropelewski,Julian X. L. Wang,Ants Leetmaa,Richard W. Reynolds,Roy L. Jenne,Dennis Joseph +21 more
TL;DR: The NCEP/NCAR 40-yr reanalysis uses a frozen state-of-the-art global data assimilation system and a database as complete as possible, except that the horizontal resolution is T62 (about 210 km) as discussed by the authors.
Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica
J. R. Petit,Jean Jouzel,Dominique Raynaud,J. M. Barnola,I. Basile,Michael L. Bender,Jérôme Chappellaz,Michael Davis,Gilles Delaygue,Marc Delmotte,V. M. Kotlyakov,Michel Legrand,Vladimir Ya. Lipenkov,C. Lorius,L. Pepin,Catherine Ritz,Eric S. Saltzman,Michel Stievenard +17 more
TL;DR: The recent completion of drilling at Vostok station in East Antarctica has allowed the extension of the ice record of atmospheric composition and climate to the past four glacial-interglacial cycles.
Journal ArticleDOI
Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica
J. R. Petit,Jean Jouzel,Dominique Raynaud,Nartsiss I. Barkov,I. Basile,Michael L. Bender,Jérôme Chappellaz,M. Davisk,G. Delaygue,Marc Delmotte,V. M. Kotlyakov,Michel Legrand,Vladimir Ya. Lipenkov,C. Lorius,Catherine Ritz,E. Saltzmank,Michel Stievenard +16 more
TL;DR: The recent completion of drilling at Vostok station in East Antarctica has allowed the extension of the ice record of atmospheric composition and climate to the past four glacial-interglacial cycles as discussed by the authors.
Journal ArticleDOI
The oceanic sink for anthropogenic CO2.
Christopher L. Sabine,Richard A. Feely,Nicolas Gruber,R.M. Key,Kitack Lee,John L. Bullister,Rik Wanninkhof,C. S. Wong,Douglas W.R. Wallace,Bronte Tilbrook,Frank J. Millero,Tsung-Hung Peng,Alexander Kozyr,T. Ono,Aida F. Ríos +14 more
TL;DR: Using inorganic carbon measurements from an international survey effort in the 1990s and a tracer-based separation technique, the authors estimate a global oceanic anthropogenic carbon dioxide (CO2) sink for the period from 1800 to 1994 of 118 19 petagrams of carbon.
Journal ArticleDOI
Oceanography: anthropogenic carbon and ocean pH.
Ken Caldeira,M. Wickett +1 more
TL;DR: It is found that oceanic absorption of CO2 from fossil fuels may result in larger pH changes over the next several centuries than any inferred from the geological record of the past 300 million years.