Surface ocean pH response to variations in pCO2 through two full glacial cycles

Sanyal, 1995, Evidence for a higher pH in the glacial ocean from boron isotopes in foraminifera, Nature, 373, 234, 10.1038/373234a0

Pearson, 2000, Atmospheric carbon dioxide concentrations over the past 60 million years, Nature, 406, 695, 10.1038/35021000

Pearson, 1999, Middle Eocene seawater pH and atmospheric carbon dioxide concentrations, Science, 284, 1824, 10.1126/science.284.5421.1824

Lemarchand, 2000, The influence of rivers on marine boron isotopes and implications for reconstructing past ocean pH, Nature, 408, 951, 10.1038/35050058

Palmer, 2003, A 23,000-year record of surface water pH and PCO2 in the Western Equatorial Pacific Ocean, Science, 300, 480, 10.1126/science.1080796

Sanyal, 2001, Empirical relationship between pH and the boron isotopic composition of G. sacculifer: implications for the boron isotope paleo-pH proxy, Paleoceanography, 16, 515, 10.1029/2000PA000547

Sanyal, 1996, Oceanic pH control on the boron isotopic composition of foraminifera: evidence from culture experiments, Paleoceanography, 11, 513, 10.1029/96PA01858

Hönisch, 2004, Ground-truthing the boron isotope paleo-pH proxy in planktonic foraminifera shells: partial dissolution and shell size effects, Paleoceanography, 19, 10.1029/2004PA001026

EPICA-community-members, 2004, Eight glacial cycles from an Antarctic ice core, Nature, 429, 623, 10.1038/nature02599

Petit, 1999, Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica, Nature, 399, 429, 10.1038/20859

Curry, 1986, Late quaternary carbonate sedimentation at the Sierra Leone Rise (Eastern equatorial Atlantic Ocean), Mar. Geol., 70, 223, 10.1016/0025-3227(86)90004-6

Bird, 2002, A revised high-resolution oxygen-isotope chronology for ODP-668B: implications for quaternary biomass burning in Africa, Glob. Planet. Change, 33, 73, 10.1016/S0921-8181(02)00062-0

Hemming, 1994, A procedure for the isotopic analysis of boron by negative thermal ionization mass spectrometry, Chem. Geol., 114, 147, 10.1016/0009-2541(94)90048-5

Spero, 2004, Reconstructing Past Surface Ocean Conditions with Globigerinoides sacculifer: Bigger is Better

Dekens, 2002, Core top calibration of Mg/Ca in tropical foraminifera: refining paleotemperature estimation, Geochem. Geophys. Geosyst., 3, 10.1029/2001GC000200

Pagani, 2005, A critical evaluation of the boron isotope-pH proxy: the accuracy of ancient ocean pH estimates, Geochim. Cosmochim. Acta., 69, 953, 10.1016/j.gca.2004.07.029

Kakihana, 1977, Fundamental studies on the ion-exchange of boron isotopes, Bull. Chem. Soc. Jpn., 50, 158, 10.1246/bcsj.50.158

Hönisch, 2004, Assessing scleractinian corals as recorders for paleo-pH: empirical calibration and vital effects, Geochim. Cosmochim. Acta, 68, 3675, 10.1016/j.gca.2004.03.002

Millero, 1995, Thermodynamics of the carbon dioxide system in the oceans, Geochim. Cosmochim. Acta, 59, 661, 10.1016/0016-7037(94)00354-O

Zeebe, 2001

Waelbroeck, 2002, Sea-level and deep water temperature changes derived from benthic foraminifera isotopic records, Quat. Sci. Rev., 21, 295, 10.1016/S0277-3791(01)00101-9

Paillard, 1996, Macintosh program performs time-series analysis, EOS Trans. AGU, 77, 379, 10.1029/96EO00259

Lohmann, 1995, A model for variation in the chemistry of planktonic foraminifera due to secondary calcification and selective dissolution, Paleoceanography, 10, 445, 10.1029/95PA00059

Bassinot, 1994, Coarse fraction fluctuations in pelagic carbonate sediments from the tropical Indian Ocean: a 1500-kyr record of carbonate dissolution, Paleoceanography, 9, 579, 10.1029/94PA00860

Barker, 2004, MIS 11 and the mid-Brunhes Dissolution Interval, Eos Trans. AGU, Fall Meet. Suppl., 85

Schmidt, 2004, Links between salinity variation in the Caribbean and North Atlantic thermohaline circulation, Nature, 428, 160, 10.1038/nature02346

Schmidt, 1999

Lewis, 1998, Program Developed for CO2 System Calculations

Mehrbach, 1973, Measurement of the apparent dissociation constants of carbonic acid in seawater at atmospheric pressure, Limnol. Oceanogr., 18, 897, 10.4319/lo.1973.18.6.0897

Dickson, 1987, A comparison of the equilibrium constants for the dissociation of carbonic acid in seawater media, Deep-Sea Res., 34, 1733, 10.1016/0198-0149(87)90021-5

Dickson, 1990, Standard potential of the reaction: AgCl(s)+1/2H2(g)=Ag(s)+HCl(aq), and the standard acidity constant of the ion HSO4− in synthetic seawater from 273.15 to 318.15K J, Chem. Thermodyn., 22, 113, 10.1016/0021-9614(90)90074-Z

Berger, 1982, Increase of carbon dioxide in the atmosphere during deglaciation: the coral reef hypothesis, Naturwissenschaften, 69, 87, 10.1007/BF00441228

Archer, 1994, Effect of deep-sea sedimentary calcite preservation on atmospheric CO2 concentration, Nature, 367, 260, 10.1038/367260a0

Sanyal, 1997, Changes in pH in the eastern equatorial Pacific across stage 5–6 boundary based on boron isotopes in foraminifera, Glob. Biogeochem. Cycles, 11, 125, 10.1029/97GB00223

Sanyal, 1999, A comparative study of Northwest Africa and eastern equatorial Pacific upwelling zones as sources of CO2 during glacial periods based on boron isotope paleo-pH estimation, Paleoceanography, 14, 753, 10.1029/1999PA900036

Anderson, 2002, Glacial–interglacial stability of ocean pH inferred from foraminifer dissolution rates, Nature, 416, 70, 10.1038/416070a

Bijma, 1999, Reassessing Foraminiferal Stable Isotope Geochemistry: impact of the oceanic carbonate system (Experimental Results), 489

Spero, 1997, Effect of seawater carbonate concentration on foraminiferal carbon and oxygen isotopes, Nature, 390, 497, 10.1038/37333

Zeebe, 1999, An explanation of the effect of seawater carbonate concentration on foraminiferal oxygen isotopes, Geochim. Cosmochim. Acta, 63, 2001, 10.1016/S0016-7037(99)00091-5