Isotopic Constraints on Earth System Processes
Geophysical Monograph Series
1. Auflage Mai 2022
352 Seiten, Hardcover
Wiley & Sons Ltd
Using isotopes as a tool for understanding Earth processes
From establishing the absolute age of the Earth to providing a stronger understanding of the nexus between geology and life, the careful measurement and quantitative interpretation of minor variations in the isotopic composition of Earth's materials has provided profound insight into the origins and workings of our planet.
Isotopic Constraints on Earth System Processes presents examples of the application of numerous different isotope systems to address a wide range of topical problems in Earth system science.
Volume highlights include:
* examination of the natural fractionation of non-traditional stable isotopes
* utilizing isotopes to understand the origin of magmas and evolution of volcanic systems
* application of isotopes to interrogate and understand Earth's Carbon and Oxygen cycles
* examination of the geochemical and hydrologic processes that lead to isotopic fractionation
* application of isotopic reactive transport models to decipher hydrologic and biogeochemical processes
The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity. Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals.
List of Contributors
Preface
Dedication
Part 1 High-Temperature / Deep Earth Processes
High-Temperature Kinetic Isotope Fractionation of Silicate Materials
Frank M. Richter
Ca and K isotope fractionation by diffusion in molten silicates: Large concentration gradients are not required to induce large diffusive isotope effects
James M. Watkins, John N. Christensen, Donald J. DePaolo, and Frederick J. Ryerson
Calcium isotope constraints on recycled carbonates in subduction-related magmas
Justin I. Simon
Reassessing the Role of Continental Lithospheric Mantle in Cenozoic Magmatism, Southwestern North America
G. Lang Farmer
Rhyolite ignimbrite generation in the Northern Andes: The Chalupas caldera, Ecuador
Lisa Hammersley, Donald J. DePaolo, Bernardo Beate, and Alan L. Deino
Xenolith constraints on "self-assimilation" and the origin of low d18O values in Mauna Kea basalts
John C. Lassiter, Danny W. Anderson, Daniel Villanueva-Lascurain, Edward W. Marshall, and Jaime D Barnes
Monitoring volcanic activity through combined measurements of CO2 efflux and (222Rn) and (220Rn) in soil gas: an application to Mount Etna (Italy)
Salvatore Giammanco and Kenneth W. W. Sims
Part II Low-Temperature / Shallow Earth Processes
The Carbon Isotope Record and Earth Surface Oxygenation
Thomas A. Laakso and Daniel P. Schrag
Detrital Garnet Geochronology: A New Window into Ancient Tectonics and Sedimentary Provenance
Kathryn A. Maneiro, Michelle K. Jordan, and Ethan F. Baxter
Development of Cr, Se, U, Sb, and Te isotopes as indicators of redox reactions, contaminant fate, and contaminant transport in aqueous systems: A review
Thomas M. Johnson, Jennifer L. Druhan, Anirban Basu, Noah E. Jemison, Xiangli Wang, Kathrin Schilling, and Naomi L. Wasserman
The Effects of Reactive Transport on Sulfur Isotopic Compositions in Natural Environments
Alexandra V. Turchyn and Jennifer L. Druhan
A Reactive Transport Framework Describing Covariation in the Isotopic Ratios of Multiple Elements in Natural Systems
Jennifer L. Druhan and Alexandra V. Turchyn
Stable Ca Isotope Fractionation in Cenozoic Marine Mammals: Beyond Biomineralization & Trophic Positioning
Cole M. Messa, Kenneth W.W. Sims, Sean R. Scott, and Mark T. Clementz
Kate Maher, Stanford University, USA.
Daniel P. Schrag, Harvard University, USA.