The jadeitites from Syros and Tinos, Cycladic Blueschist Unit, Greece: field observations, mineralogical, geochemical and geochronological characteristics

IF 2 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Michael Bröcker
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Abstract

Abstract This study illustrates the field relationships of jadeitite-bearing block-in-matrix sequences on Syros and Tinos, Cycladic Blueschist Unit, and adds additional U–Pb zircon ages for jadeitites to the geochronological database. The results confirm the importance of Cretaceous ( c. 80 Ma) and Eocene ( c. 50 Ma) processes in their geological evolution. Interpretations suggesting that the jadeitites were formed by complete metasomatic replacement of a pre-existing rock are not fully supported by field observations. In at least some cases, the formation of jadeitite is likely due to precipitation from Na-Al-Si-rich aqueous fluids, which also caused variable metasomatic alteration of the host rock. Unambiguous age constraints for formation of the Syros and Tinos jadeitites are not available. A relationship to Eocene blueschist facies metamorphism recorded in the associated metamafic rocks seems plausible. However, since high-pressure overprinting of pre-Eocene jadeitite is also conceivable, there is a much larger time window for jadeitite formation, framed by Cretaceous ( c. 80–76 Ma) protolith ages of various mélange blocks and the waning stages of blueschist facies metamorphism ( c. 40 Ma). Field observations are consistent with the interpretation that the mélange-like occurrences on Syros and Tinos record, to varying extent, multi-stage processes that include detachment of mafic rocks from the subducting plate, local infiltration of Na-Al-Si-rich aqueous fluids, exhumation via a serpentinitic matrix in a subduction channel and reworking of the primary block-in-matrix fabric by sedimentary or tectonic processes during accretionary wedge formation.
希腊基克拉迪蓝片单元Syros和Tinos的硬玉岩:野外观察、矿物学、地球化学和年代学特征
摘要本研究阐明了基克拉迪蓝片单元Syros和Tinos上含翡翠岩块状基质层序的场域关系,并将翡翠岩的U-Pb锆石年龄添加到其年代学数据库中。结果证实了白垩纪(约80 Ma)和始新世(约50 Ma)过程在其地质演化中的重要性。有关硬玉岩是由先前存在的岩石完全交代取代而形成的解释,并没有得到实地观察的充分支持。至少在某些情况下,翡翠岩的形成可能是由于富na - al - si水溶液的沉淀,这也导致了寄主岩石的可变交代蚀变。对于Syros和Tinos硬玉的形成,没有明确的年龄限制。与伴生变质岩中记录的始新世蓝片岩相变质作用的关系似乎是可信的。然而,由于前始新世翡翠岩的高压叠印也是可能的,因此,根据白垩纪(约80-76 Ma)各种岩块的原岩年龄和蓝片岩相变质作用的减弱阶段(约40 Ma),翡翠岩形成的时间窗要大得多。野外观测结果与解释一致,即Syros和Tinos上的msamulange样产状在不同程度上记录了多阶段的过程,包括基性岩从俯冲板块分离、富na - al - si含水流体的局部渗透、俯冲通道中的蛇纹岩基质的挖掘以及增生楔形成过程中沉积或构造过程对原始块体基质结构的改造。
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来源期刊
Geological Magazine
Geological Magazine 地学-地球科学综合
CiteScore
4.70
自引率
0.00%
发文量
111
审稿时长
3 months
期刊介绍: Geological Magazine, established in 1864, is one of the oldest and best-known periodicals in earth sciences. It publishes original scientific papers covering the complete spectrum of geological topics, with high quality illustrations. Its worldwide circulation and high production values, combined with Rapid Communications and Book Review sections keep the journal at the forefront of the field. This journal is included in the Cambridge Journals open access initiative, Cambridge Open Option.
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