Secondary ionization mass spectrometry analysis in petrochronology

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Abstract

The goal of petrochronology is to extract information about the rates and conditions at which rocks and magmas are transported through the Earth’s crust. Garnering this information from the rock record greatly benefits from integrating textural and compositional data with radiometric dating of accessory minerals. Length scales of crystal growth and diffusive transport in accessory minerals under realistic geologic conditions are typically in the range of 1–10’s of μm, and in some cases even substantially smaller, with zircon having among the lowest diffusion coefficients at a given temperature (e.g., Cherniak and Watson 2003). Intrinsic to the compartmentalization of geochemical and geochronologic information from intra-crystal domains is the requirement to determine accessory mineral compositions using techniques that sample at commensurate spatial scales so as to not convolute the geologic signals that are recorded within crystals, as may be the case with single grain or large grain fragment analysis by isotope dilution thermal ionization mass spectrometry (ID-TIMS; e.g., Schaltegger and Davies 2017, this volume; Schoene and Baxter 2017, this volume). Small crystals can also be difficult to extract by mineral separation techniques traditionally used in geochronology, which also lead to a loss of petrographic context. Secondary Ionization Mass Spectrometry, that is SIMS performed with an ion microprobe, is an analytical technique ideally suited to meet the high spatial resolution analysis requirements that are critical for petrochronology (Table 1).

Publication type Book chapter
Publication Subtype Book Chapter
Title Secondary ionization mass spectrometry analysis in petrochronology
Chapter 7
Volume 83
Issue 1
Year Published 2017
Language English
Publisher Mineralogical Society of America
Publisher location Washington, D.C.
Contributing office(s) Volcano Science Center
Description 32 p.
Larger Work Type Book
Larger Work Subtype Monograph
Larger Work Title Reviews in Mineralogy and Geochemistry
First page 199
Last page 230
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