This volume reviews the current status of non-traditional isotope geochemistry from analytical, theoretical, and experimental approaches to analysis of natural samples. In particular, important applications to cosmochemistry, high-temperature geochemistry, low-temperature geochemistry, and geobiology are discussed.
Author(s): Fang-Zhen Teng, Nicolas Dauphas, James Watkins, Fang-Zhen Teng, Nicolas Dauphas, James Watkins
Series: Reviews in Mineralogy & Geochemistry 82
Edition: 1
Publisher: Mineralogical Society of America
Year: 2017
Language: English
Pages: 885
Tags: Geochemistry;Mineralogy;Isotopes;Isotope;Minerals;Stable Isotope;Stable Isotopes;Earth Sciences;Geology;Geomorphology;Historical Geology;Physical Geology;Plate Tectonics;Sedimentary;Structural;Volcanology
Title Page
p. i
Copyright
p. ii
From the Series Editor
p. iii
Preface
p. iii
Table of Contents
p. iv-xiv
Chapter 1. Non-Traditional Stable Isotopes: Retrospective and Prospective
by Fang-Zhen Teng, Nicolas Dauphas, James M. Watkins, p. 1-26.
Chapter 2. Equilibrium Fractionation of Non-traditional Isotopes: a Molecular Modeling Perspective
by Marc Blanchard, Etienne Balan, Edwin A. Schauble, p. 27-64.
Chapter 3. Equilibrium Fractionation of Non-Traditional Stable Isotopes: an Experimental Perspective
by Anat Shahar, Stephen M. Elardo, Catherine A. Macris, p. 65-84.
Chapter 4. Kinetic Fractionation of Non-Traditional Stable Isotopes by Diffusion and Crystal Growth Reactions
by James M. Watkins, Donald J. DePaolo, E. Bruce Watson, p. 85-126.
Chapter 5. In Situ Analysis of Non-Traditional Isotopes by SIMS and LA–MC–ICP–MS: Key Aspects and the Example of Mg Isotopes in Olivines and Silicate Glasses
by Marc Chaussidon, Zhengbin Deng, Johan Villeneuve, Julien Moureau, Bruce Watson, Frank Richter, Frédéric Moynier, p. 127-164.
Chapter 6. Lithium Isotope Geochemistry
by Sarah Penniston-Dorland, Xiao-Ming Liu, Roberta L. Rudnick, p. 165-218.
Chapter 7. Magnesium Isotope Geochemistry
by Fang-Zhen Teng, p. 219-288.
Chapter 8. Silicon Isotope Geochemistry
by Franck Poitrasson, p. 28-344.
Chapter 9. Chlorine Isotope Geochemistry
by Jaime D. Barnes, Zachary D. Sharp, p. 345-378.
Chapter 10. Chromium Isotope Geochemistry
by Liping Qin, Xiangli Wang, p. 379-414.
Chapter 11. Iron Isotope Systematics
by Nicolas Dauphas, Seth G. John, Olivier Rouxel, p. 415-510
Chapter 12. The Isotope Geochemistry of Ni
by Tim Elliott, Robert C. J. Steele, p. 511-542.
Chapter 13. The Isotope Geochemistry of Zinc and Copper
by Frédéric Moynier, Derek Vance, Toshiyuki Fujii, Paul Savage, p. 543-600.
Chapter 14. Germanium Isotope Geochemistry
by Eva E. Stüeken, p. 657-682.
Chapter 15. Selenium Isotopes as a Biogeochemical Proxy in Deep Time
by Tim Elliott, Robert C. J. Steele, p. 511-542.
Chapter 16. Good Golly, Why Moly? The Stable Isotope Geochemistry of Molybdenum
by Brian Kendall, Tais W. Dahl, Ariel D. Anbar, p. 683-732.
Chapter 17. Recent Developments in Mercury Stable Isotope Analysis
by Joel D. Blum, Marcus W. Johnson, p. 733-758.
Chapter 18. Investigation and Application of Thallium Isotope Fractionation
by Sune G. Nielsen, Mark Rehkämper, Julie Prytulak, p. 759-798.
Chapter 19. Uranium Isotope Fractionation
by Morten B. Andersen, Claudine H. Stirling, Stefan Weyer, p. 799-850.
Chapter 20. Medical Applications of Isotope Metallomics
by Tim Elliott, Robert C. J. Steele, p. 851-885.
