Journal
CRYSTALS
Volume 12, Issue 3, Pages -Publisher
MDPI
DOI: 10.3390/cryst12030383
Keywords
apatite; SIMS; oxygen isotope; chlorine isotope; volatile
Funding
- National Key R&D Program of China [2018YFA0702600]
- Key Research Program of IGGCAS [IGGCAS-201901, IGGCAS-202101]
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Apatite is widely used in geological research, with a new analytical procedure allowing for simultaneous measurement of multiple chemical characteristics, improving analysis efficiency and data consistency.
Due to its ubiquity in rock types and ability to accommodate a wide range of trace elements, apatite is widely used to interpret magmatic evolution and track volatile elements in hydrothermal systems. Volatile elements and Cl-O isotopes make apatite an ideal mineral with which to record the chemical and textural signatures of geological processes. This study describes a new analytical procedure to obtain the F, Cl, and S contents and Cl and O isotopes simultaneously using secondary ion mass spectrometry (SIMS) within similar to 10 min of analysis time for each spot. The analytical precision of delta O-18 (2 SD (standard deviation) similar to 0.30 parts per thousand) and delta Cl-37 (2 SD similar to 0.20 parts per thousand) has no obvious trade-off compared with ordinary SIMS analysis. The new protocol is time-efficient and, more importantly, ensures the consistency of data sources. A set of apatite standards with different uses were determined using this new method to provide a complete set of recommended values.
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