04089nam 22005774a 450 991100474330332120200520144314.01-281-05471-297866110547170-08-052922-4(CKB)1000000000383933(EBL)313598(OCoLC)246683387(SSID)ssj0000123972(PQKBManifestationID)11147698(PQKBTitleCode)TC0000123972(PQKBWorkID)10015319(PQKB)11322104(MiAaPQ)EBC313598(EXLCZ)99100000000038393320011005d2001 uy 0engur|n|---|||||txtrdacontentcrdamediacrrdacarrierCO₂ in seawater equilibrium, kinetics, isotopes /Richard E. Zeebe and Dieter Wolf-Gladrow.Amsterdam ;New York Elsevier20011 online resource (xiii, 346 pages) illustrationsElsevier oceanography series,0422-9894 ;650-444-50579-2 Includes bibliographical references (p. 313-340) and index.Cover; Contents; Chapter 1. Equilibrium; 1.1 The carbonate system; 1.2 Alkalinity; 1.3 pH scales; 1.4 Partial pressure and fugacity; 1.5 The Revelle factor; 1.6 Worked out problems; Chapter 2. Kinetics; 2.1 Basic concepts of kinetics; 2.2 Temperature dependence of rate constants; 2.3 Reactions and rate constants of the carbonate system; 2.4 Approaching equilibrium: the carbonate system; 2.5 Approaching isotopic equilibrium: 12C, 13C, and 14C; 2.6 Diffusion and Reaction; 2.7 Summary; Chapter 3. Stable Isotope Fractionation; 3.1 Notation, abundances, standards; 3.2 Carbon; 3.3 Oxygen; 3.4 Boron3.5 Thermodynamic properties of isotopic substances; Appendix A: Equilibrium constants; A.1 CO2: Acidity constants K1* and K2*; A.2 Acidity constant of true carbonic acid; A.3 CO2 solubility in water (Henry's law); A.4 Ion product of water: KW*; A.5 Bisulfate ion; A.6 Hydrogen fluoride; A.7 Boric acid; A.8 Phosphoric acid; A.9 Silicic acid; A.10 Solubility product of calcite and aragonite; A.11 Effect of pressure on equilibrium constants; A.12 Chemical composition of seawater; A.13 The equation of state of seawater; Appendix B: From two to six; Appendix C: Details and CalculationsC.1 Total alkalinity and charge balance; C.2 Saturation vapor pressure of water; C.3 The fugacity of a pure gas; C.4 Equilibrium at air-sea interface and chemical potential; C.5 Change CO2 concentration while keeping pH constant; C.6 The rate constant for the hydroxylation of CO2, k+4; C.7 A formula for the equilibration time of CO2; C.8 Kinetic rate laws of the carbonate system; C.9 Derivation of oxygen isotope partitioning; C.10 Mathematical derivation of the partition function ratio; Appendix D: Answers to Exercises; Appendix E: Notation and Symbols; References; IndexCarbon dioxide is the most important greenhouse gas after water vapor in the atmosphere of the earth. More than 98% of the carbon of the atmosphere-ocean system is stored in the oceans as dissolved inorganic carbon. The key for understanding critical processes of the marine carbon cycle is a sound knowledge of the seawater carbonate chemistry, including equilibrium and nonequilibrium properties as well as stable isotope fractionation. Presenting the first coherent text describing equilibrium and nonequilibrium properties and stable isotope fractionation among the elementsElsevier oceanography series ;65.SeawaterCarbon dioxide contentChemical oceanographySeawaterCarbon dioxide content.Chemical oceanography.551.46/01Zeebe Richard E1823931Wolf-Gladrow Dieter A.1953-65509MiAaPQMiAaPQMiAaPQBOOK9911004743303321CO₂ in seawater4390878UNINA