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- Title
Characterization of the zircon Ce anomaly for estimation of oxidation state of magmas: a revised Ce/Ce* method.
- Authors
Zhong, Shihua; Seltmann, Reimar; Qu, Hongying; Song, Yingxin
- Abstract
As a proxy of magmatic oxidation state, the accurate characterization of the Ce anomaly of zircon is of great significance since it can give important information for provenance studies of rocks as well as for exploration of intrusion-related mineral deposits. The magnitude of the zircon Ce anomaly has been traditionally described by Ce/Ce*, where Ce* is the theoretical Ce value derived from a chondrite-normalized rare earth element (REE) pattern. More recently, the Ce4+/Ce3+ method based on the lattice strain model has been proposed, since the latter method does not need La and Pr contents for zircon, both of which are commonly below the limit of detection and susceptible to contamination from melt/mineral inclusions. In this contribution we show that the Ce4+/Ce3+ method is confronted with some problems in practice and should be further improved. In contrast, by re-examining chondrite-normalized REE patterns of zircon, we find that Ce* can be estimated according to a logarithmic function curve without involvement of La and Pr contents. Application of this new method to zircon data from 11 giant to supergiant porphyry Cu deposits suggests this revised method as a more valid measure in evaluating magmatic oxidation state. The revised Ce/Ce* method is of particular importance for analyses where the provenance of the analyzed zircon is unknown or in question, since the method does not require knowledge of the melt composition.
- Subjects
RARE earth metals; OXIDATION states; ZIRCON; MINES &; mineral resources; MAGMAS; TRACE element analysis; NEODYMIUM isotopes
- Publication
Mineralogy & Petrology, 2019, Vol 113, Issue 6, p755
- ISSN
0930-0708
- Publication type
Article
- DOI
10.1007/s00710-019-00682-y