CORRELATED MICROANALYSIS OF ZIRCON: TRACE ELEMENT, δ18O, AND U-TH-PB ISOTOPIC CONSTRAINTS ON THE IGNEOUS ORIGIN OF COMPLEX >3900 MA DETRITAL GRAINS

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dc.contributor.author Cavosie A.J.
dc.contributor.author Valley J.W.
dc.contributor.author Wilde S.A.
dc.date.accessioned 2024-09-22T02:54:13Z
dc.date.available 2024-09-22T02:54:13Z
dc.date.issued 2006
dc.identifier https://www.elibrary.ru/item.asp?id=20869125
dc.identifier.citation Geochimica et Cosmochimica Acta, 2006, 70, 22, 5601-5616
dc.identifier.issn 0016-7037
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/45328
dc.description.abstract The origins of >3900 Ma detrital zircons from Western Australia are controversial, in part due to their complexity and long geologic histories. Conflicting interpretations for the genesis of these zircons propose magmatic, hydrothermal, or metamorphic origins. To test the hypothesis that these zircons preserve magmatic compositions, trace elements [rare earth elements (REE), Y, P, Th, U] were analyzed by ion microprobe from a suite of >3900 Ma zircons from Jack Hills, Western Australia, and include some of the oldest detrital zircons known (4400-4300 Ma). The same ~20 μm domains previously characterized for U/Pb age, oxygen isotope composition (δ18O), and cathodoluminescence (CL) zoning were specifically targeted for analysis. The zircons are classified into two types based on the light-REE (LREE) composition of the domain analyzed. Zircons with Type 1 domains form the largest group (37 of 42), consisting of grains that preserve evolved REE compositions typical of igneous zircon from crustal rocks. Grains with Type 1 domains display a wide range of CL zoning patterns, yield nearly concordant U/Pb ages from 4400 to 3900 Ma, and preserve a narrow range of δ18O values from 4.7‰ to 7.3‰ that overlap or are slightly elevated relative to mantle oxygen isotope composition. Type 1 domains are interpreted to preserve magmatic compositions. Type 2 domains occur in six zircons that contain spots with enriched light-REE (LREE) compositions, here defined as having chondrite normalized values of LaN > 1 and PrN > 10. A subset of analyses in Type 2 domains appear to result from incorporation of sub-surface mineral inclusions in the analysis volume, as evidenced by positively correlated secondary ion beam intensities for LREE, P, and Y, which are anti-correlated to Si, although not all Type 2 analyses show these features. The LREE enrichment also occurs in areas with discordant U/Pb ages and/or high Th/U ratios, and is apparently associated with past or present radiation damage. The enrichment is not attributed to hydrothermal alteration, however, as oxygen isotope ratios in Type 2 domains overlap with magmatic values of Type 1 domains, and do not appear re-set as might be expected from dissolution or ion-exchange processes operating at variable temperatures. Thus, REE compositions in Type 2 domains where mineral inclusions are not suspected are best interpreted to result from localized enrichment of LREE in areas with past or present radiation damage, and with a very low fluid/rock ratio. Correlated in situ analyses allow magmatic compositions in these complex zircons to be distinguished from the effects of secondary processes. These results are additional evidence for preservation of magmatic compositions in Jack Hills zircons, and demonstrate the benefits of detailed imaging in studies of complicated detrital zircons of unknown origin. The data reported here support previous interpretations that the majority of >3900 Ma zircons from the Jack Hills have an origin in evolved granitic melts, and are evidence for the existence of continental crust very early in Earth's history. © 2006 Elsevier Inc. All rights reserved.
dc.subject zircons
dc.subject 3900 Ma
dc.title CORRELATED MICROANALYSIS OF ZIRCON: TRACE ELEMENT, δ18O, AND U-TH-PB ISOTOPIC CONSTRAINTS ON THE IGNEOUS ORIGIN OF COMPLEX >3900 MA DETRITAL GRAINS
dc.type Статья
dc.identifier.doi 10.1016/j.gca.2006.08.011


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