Home Physical Sciences RiMG Series
Chapter
Licensed
Unlicensed Requires Authentication

RiMG Series

Become an author with De Gruyter Brill
Explore this Subject How to publish with us
Triple Oxygen Isotope Geochemistry
This chapter is in the book Triple Oxygen Isotope Geochemistry
© 2021 Walter de Gruyter GmbH, Berlin/Munich/Boston

© 2021 Walter de Gruyter GmbH, Berlin/Munich/Boston

Chapters in this book

  1. Frontmatter I
  2. PREFACE IV
  3. TABLE OF CONTENTS VI
  4. 1. Why Measure 17O? Historical Perspective, Triple-Isotope Systematics and Selected Applications 1
  5. 2. Discoveries of Mass Independent Isotope Effects in the Solar System: Past, Present and Future 35
  6. 3. Climbing to the Top of Mount Fuji: Uniting Theory and Observations of Oxygen Triple Isotope Systematics 97
  7. 4. Mass Dependence of Equilibrium Oxygen Isotope Fractionation in Carbonate, Nitrate, Oxide, Perchlorate, Phosphate, Silicate, and Sulfate Minerals 137
  8. 5. Standardization for the Triple Oxygen Isotope System: Waters, Silicates, Carbonates, Air, and Sulfates 179
  9. 6. Mass-Independent Fractionation of Oxygen Isotopes in the Atmosphere 197
  10. 7. Isotopic Traces of Atmospheric O2 in Rocks, Minerals, and Melts 217
  11. 8. Triple Oxygen Isotopes in Evolving Continental Crust, Granites, and Clastic Sediments 241
  12. 9. Triple Oxygen Isotope Variations in Earth’s Crust 291
  13. 10. Triple Oxygen Isotope Trend Recorded by Precambrian Cherts: A Perspective from Combined Bulk and in situ Secondary Ion Probe Measurements 323
  14. 11. Triple Oxygen Isotopes in Silica–Water and Carbonate–Water Systems 367
  15. 12. Triple Oxygen Isotope Systematics in the Hydrologic Cycle 401
  16. 13. Triple Oxygen Isotopes in Meteoric Waters, Carbonates, and Biological Apatites: Implications for Continental Paleoclimate Reconstruction 429
  17. 14. Small Triple Oxygen Isotope Variations in Sulfate: Mechanisms and Applications 463
  18. RiMG Series 489
https://doi.org/10.1515/9781501524677-016

Chapters in this book

  1. Frontmatter I
  2. PREFACE IV
  3. TABLE OF CONTENTS VI
  4. 1. Why Measure 17O? Historical Perspective, Triple-Isotope Systematics and Selected Applications 1
  5. 2. Discoveries of Mass Independent Isotope Effects in the Solar System: Past, Present and Future 35
  6. 3. Climbing to the Top of Mount Fuji: Uniting Theory and Observations of Oxygen Triple Isotope Systematics 97
  7. 4. Mass Dependence of Equilibrium Oxygen Isotope Fractionation in Carbonate, Nitrate, Oxide, Perchlorate, Phosphate, Silicate, and Sulfate Minerals 137
  8. 5. Standardization for the Triple Oxygen Isotope System: Waters, Silicates, Carbonates, Air, and Sulfates 179
  9. 6. Mass-Independent Fractionation of Oxygen Isotopes in the Atmosphere 197
  10. 7. Isotopic Traces of Atmospheric O2 in Rocks, Minerals, and Melts 217
  11. 8. Triple Oxygen Isotopes in Evolving Continental Crust, Granites, and Clastic Sediments 241
  12. 9. Triple Oxygen Isotope Variations in Earth’s Crust 291
  13. 10. Triple Oxygen Isotope Trend Recorded by Precambrian Cherts: A Perspective from Combined Bulk and in situ Secondary Ion Probe Measurements 323
  14. 11. Triple Oxygen Isotopes in Silica–Water and Carbonate–Water Systems 367
  15. 12. Triple Oxygen Isotope Systematics in the Hydrologic Cycle 401
  16. 13. Triple Oxygen Isotopes in Meteoric Waters, Carbonates, and Biological Apatites: Implications for Continental Paleoclimate Reconstruction 429
  17. 14. Small Triple Oxygen Isotope Variations in Sulfate: Mechanisms and Applications 463
  18. RiMG Series 489
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Winner of the OpenAthens UX Award 2026
Winner of the OpenAthens UX Award 2026
Have an idea on how to improve our website?
Please write us.
© 2026 De Gruyter Brill
Downloaded on 29.3.2026 from https://www.degruyterbrill.com/document/doi/10.1515/9781501524677-016/html
Scroll to top button