Chapter 1. Introduction
by Glenn J. MacPherson, p. 1 – 4
Chapter 2. Oxygen isotopes in the early Solar System – A historical perspective
by Robert N. Clayton, p. 5 – 14
Chapter 3. Abundance, notation, and fractionation of light stable isotopes
by Robert E. Criss and James Farquhar, p. 15 – 30
Chapter 4. Nucleosynthesis and chemical evolution of oxygen
by Bradley S. Meyer, Larry R. Nittler, Ann N. Nguyen, and Scott Messenger. p. 31 – 54
Chapter 5. Oxygen in the interstellar medium
by Adam G. Jensen, F. Markwick-Kemper, and Theodore P. Snow, p. 55 – 72
Chapter 6. Oxygen in the Sun
by Andrew M. Davis, Ko Hashizume, Marc Chaussidon, Trevor R. Ireland, Carlos Allende Prieto, and David L. Lambert, p. 73 – 92
Chapter 7. Redox conditions in the solar nebula: observational, experimental, and theoretical constraints
by Lawrence Grossman, John R. Beckett, Alexei V. Fedkin, Steven B. Simon, and Fred J. Ciesla, p. 93 – 140
Chapter 8. Oxygen isotopes of chondritic components
by Hisayoshi Yurimoto, Alexander N. Krot, Byeon-Gak Choi, Jerome Aléon, Takuya Kunihiro, and Adrian J. Brearley, p. 141 – 186
Chapter 9. Mass-independent oxygen isotope variation in the solar nebula
by Edward D. Young, Kyoshi Kuramoto, Rudolph A. Marcus, Hisayoshi Yurimoto, and Stein B. Jacobsen, p. 187 – 218
Chapter 10. Oxygen and other volatiles in the giant planets and their satellites
by Michael H. Wong, Jonathan I. Lunine, Sushil K. Atreya, Torrence Johnson, Paul R. Mahaffy, Tobias C. Owen, and Thérèse Encrenaz, p. 219 – 246
Chapter 11. Oxygen in comets and interplanetary dust particles
by Scott A. Sandford, Scott Messenger, Michael DiSanti, Lindsay Keller, and Kathrin Altwegg, p. 247 – 272
Chapter 12. Oxygen and asteroids
by Thomas H. Burbine, Andrew S. Rivkin, Sarah K. Noble, Thais Mothé-Diniz, Wliiam F. Bottke, Timothy J. McCoy, M. Darby Dyar, anf Cristina A. Thomas, p. 273 – 344
Chapter 13. Oxygen isotopes in asteroidal materials
by Iasn A. Franchi, p. 345 – 398
Chapter 14. Oxygen isotopic composition and chemical correlations in meteorites and the terrestrial planets
by David W. Mittlefehldt, Robert N. Clayton, Michael J. Drake, anf Kevin Righter, p. 399 – 428
Chapter 15. Record of low-temperature alteration in asteroids
by Michael E. Zolensky, Alexander N. Krot, and Gretchen Benedix, p. 429 – 462
Chapter 16. The oxygen cycle of the terrestrial planets: insights into the processing and history of oxygen in surface environments
by James Farquhar and David T. Johnston, p. 463 – 492
Chapter 17. Redox conditions on small bodies, the Moon and Mars
by Meenakshi Wadhwa, p. 493 – 510
Chapter 18. Terrestrial oxygen isotope variations and their implications for planetary lithospheres
by Robert E. Criss, p. 511 – 526
Chapter 19. Basalts as probes of planetary interior redox state
by Christopher D. K. Herd, p. 527 – 554
Chapter 20. Rheological consequences of redox state
by Stephen Mackwell, p. 555 – 570
Appendix: meteorites – a brief tutorial
by David W. Mittlefehldt, p. 571 – 590
Index 1 Subject Index, p. 591 – 596
Index 2 Meteorite Index, p. 597 – 598