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Items: 1 to 20 of 141

1.

Enhanced production of oceanic dimethylsulfide resulting from CO₂-induced grazing activity in a high CO₂ world.

Kim JM, Lee K, Yang EJ, Shin K, Noh JH, Park KT, Hyun B, Jeong HJ, Kim JH, Kim KY, Kim M, Kim HC, Jang PG, Jang MC.

Environ Sci Technol. 2010 Nov 1;44(21):8140-3. doi: 10.1021/es102028k.

PMID:
20883015
2.

Direct linkage between dimethyl sulfide production and microzooplankton grazing, resulting from prey composition change under high partial pressure of carbon dioxide conditions.

Park KT, Lee K, Shin K, Yang EJ, Hyun B, Kim JM, Noh JH, Kim M, Kong B, Choi DH, Choi SJ, Jang PG, Jeong HJ.

Environ Sci Technol. 2014 May 6;48(9):4750-6. doi: 10.1021/es403351h. Epub 2014 Apr 11.

PMID:
24724561
3.

Ocean acidification and marine trace gas emissions.

Hopkins FE, Turner SM, Nightingale PD, Steinke M, Bakker D, Liss PS.

Proc Natl Acad Sci U S A. 2010 Jan 12;107(2):760-5. doi: 10.1073/pnas.0907163107. Epub 2009 Dec 22.

4.

Interacting effects of ocean acidification and warming on growth and DMS-production in the haptophyte coccolithophore Emiliania huxleyi.

Arnold HE, Kerrison P, Steinke M.

Glob Chang Biol. 2013 Apr;19(4):1007-16. doi: 10.1111/gcb.12105. Epub 2013 Jan 18.

PMID:
23504879
5.

Coral reefs under rapid climate change and ocean acidification.

Hoegh-Guldberg O, Mumby PJ, Hooten AJ, Steneck RS, Greenfield P, Gomez E, Harvell CD, Sale PF, Edwards AJ, Caldeira K, Knowlton N, Eakin CM, Iglesias-Prieto R, Muthiga N, Bradbury RH, Dubi A, Hatziolos ME.

Science. 2007 Dec 14;318(5857):1737-42. Review.

PMID:
18079392
6.

Chapter 1. Impacts of the oceans on climate change.

Reid PC, Fischer AC, Lewis-Brown E, Meredith MP, Sparrow M, Andersson AJ, Antia A, Bates NR, Bathmann U, Beaugrand G, Brix H, Dye S, Edwards M, Furevik T, Gangstø R, Hátún H, Hopcroft RR, Kendall M, Kasten S, Keeling R, Le Quéré C, Mackenzie FT, Malin G, Mauritzen C, Olafsson J, Paull C, Rignot E, Shimada K, Vogt M, Wallace C, Wang Z, Washington R.

Adv Mar Biol. 2009;56:1-150. doi: 10.1016/S0065-2881(09)56001-4.

PMID:
19895974
7.

Effect of ocean acidification on iron availability to marine phytoplankton.

Shi D, Xu Y, Hopkinson BM, Morel FM.

Science. 2010 Feb 5;327(5966):676-9. doi: 10.1126/science.1183517. Epub 2010 Jan 14.

8.

Methyl bromide: ocean sources, ocean sinks, and climate sensitivity.

Anbar AD, Yung YL, Chavez FP.

Global Biogeochem Cycles. 1996 Mar;10(1):175-90.

PMID:
11539402
9.

Community composition has greater impact on the functioning of marine phytoplankton communities than ocean acidification.

Eggers SL, Lewandowska AM, Barcelos E Ramos J, Blanco-Ameijeiras S, Gallo F, Matthiessen B.

Glob Chang Biol. 2014 Mar;20(3):713-23. doi: 10.1111/gcb.12421. Epub 2014 Jan 26.

PMID:
24115206
10.

Multistressor impacts of warming and acidification of the ocean on marine invertebrates' life histories.

Byrne M, Przeslawski R.

Integr Comp Biol. 2013 Oct;53(4):582-96. doi: 10.1093/icb/ict049. Epub 2013 May 22.

PMID:
23697893
11.

Oceanic dimethylsulfide: production during zooplankton grazing on phytoplankton.

Dacey JW, Wakeham SG.

Science. 1986 Sep 19;233(4770):1314-6.

PMID:
17843360
12.

Weak response of oceanic dimethylsulfide to upper mixing shoaling induced by global warming.

Vallina SM, Simó R, Manizza M.

Proc Natl Acad Sci U S A. 2007 Oct 9;104(41):16004-9. Epub 2007 Sep 27.

13.

Climate-driven trends in contemporary ocean productivity.

Behrenfeld MJ, O'Malley RT, Siegel DA, McClain CR, Sarmiento JL, Feldman GC, Milligan AJ, Falkowski PG, Letelier RM, Boss ES.

Nature. 2006 Dec 7;444(7120):752-5.

PMID:
17151666
14.

Response of the Arabian Sea to global warming and associated regional climate shift.

Kumar SP, Roshin RP, Narvekar J, Kumar PK, Vivekanandan E.

Mar Environ Res. 2009 Dec;68(5):217-22. doi: 10.1016/j.marenvres.2009.06.010. Epub 2009 Jun 10.

PMID:
19592084
15.

Enhanced biological carbon consumption in a high CO2 ocean.

Riebesell U, Schulz KG, Bellerby RG, Botros M, Fritsche P, Meyerhöfer M, Neill C, Nondal G, Oschlies A, Wohlers J, Zöllner E.

Nature. 2007 Nov 22;450(7169):545-8. Epub 2007 Nov 11.

PMID:
17994008
16.

Dimethylsulfide is an energy source for the heterotrophic marine bacterium Sagittula stellata.

Boden R, Murrell JC, Schäfer H.

FEMS Microbiol Lett. 2011 Sep;322(2):188-93. doi: 10.1111/j.1574-6968.2011.02349.x. Epub 2011 Jul 19.

17.

Southern Ocean iron enrichment experiment: carbon cycling in high- and low-Si waters.

Coale KH, Johnson KS, Chavez FP, Buesseler KO, Barber RT, Brzezinski MA, Cochlan WP, Millero FJ, Falkowski PG, Bauer JE, Wanninkhof RH, Kudela RM, Altabet MA, Hales BE, Takahashi T, Landry MR, Bidigare RR, Wang X, Chase Z, Strutton PG, Friederich GE, Gorbunov MY, Lance VP, Hilting AK, Hiscock MR, Demarest M, Hiscock WT, Sullivan KF, Tanner SJ, Gordon RM, Hunter CN, Elrod VA, Fitzwater SE, Jones JL, Tozzi S, Koblizek M, Roberts AE, Herndon J, Brewster J, Ladizinsky N, Smith G, Cooper D, Timothy D, Brown SL, Selph KE, Sheridan CC, Twining BS, Johnson ZI.

Science. 2004 Apr 16;304(5669):408-14.

18.

Changes in carbon dioxide during an oceanic anoxic event linked to intrusion into Gondwana coals.

McElwain JC, Wade-Murphy J, Hesselbo SP.

Nature. 2005 May 26;435(7041):479-82.

PMID:
15917805
19.

OCEANS. Limits to marine life.

Brewer PG, Peltzer ET.

Science. 2009 Apr 17;324(5925):347-8. doi: 10.1126/science.1170756. No abstract available.

PMID:
19372421
20.

Climate change and the oceans--what does the future hold?

Bijma J, Pörtner HO, Yesson C, Rogers AD.

Mar Pollut Bull. 2013 Sep 30;74(2):495-505. doi: 10.1016/j.marpolbul.2013.07.022. Epub 2013 Aug 7. Review. Erratum in: Mar Pollut Bull. 2013 Nov 15;76(1-2):436.

PMID:
23932473

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