Eclogite dehydration and melt-induced embrittlement at high-pressure conditions

IF 2.2 3区地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY

Terra Nova Pub Date : 2024-02-14 DOI:10.1111/ter.12707

Anna Rogowitz, Simon Schorn, Benjamin Huet

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Abstract

We document the complex interaction between metamorphic reactions and deformation behaviour at high-pressure conditions by combining (micro-) structural, petrographical and geochemical data from an eclogite body. The well-equilibrated eclogite fabric is crosscut by mineral veins. Precipitated veins host the eclogitic high-pressure assemblage with variation in modal composition, indicating that fracturing occurred at eclogite facies conditions. Deflection of the eclogite fabric adjacent to the veins implies ductile reactivation of the veins as flanking structures and strain localization under continuous aseismic shearing. In consequence, the reactivated veins are characterized by undulatory extinction and subgrain formation in quartz indicating crystal plasticity. We show that prograde post-eclogitization metamorphism resulted in progressive dehydration and melting of the eclogite. Subsequent increase in pore-pressure-induced rock failure. The mesoscopic to microscopic characteristics of eclogite-facies veins indicate a cyclic behaviour of fracturing, vein formation and crystal-plasticity which demonstrates the strong interaction of chemical and mechanical processes operating at depth.

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埃洛石脱水和高压条件下的熔融诱发脆化

我们通过结合一个斜长岩岩体的（微）结构、岩相学和地球化学数据，记录了高压条件下变质反应与变形行为之间复杂的相互作用。匀称的辉绿岩结构被矿脉交叉切割。沉淀矿脉承载着夕闪岩高压组合，其模态成分各不相同，表明在夕闪岩面条件下发生了断裂。邻近矿脉的斜长岩结构的变形意味着矿脉作为侧翼结构的韧性再活化以及连续地震剪切作用下的应变定位。因此，重新激活的矿脉具有波状消长和石英亚晶粒形成的特征，表明了晶体的可塑性。我们的研究表明，蚀变后的顺行变质作用导致了蚀变岩的逐渐脱水和熔化。随后，孔隙压力增加导致岩石破坏。从中观到微观的埃克洛辉石成因矿脉特征表明了断裂、矿脉形成和晶体塑性的循环行为，证明了深部化学和机械过程的强烈相互作用。

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来源期刊

Terra Nova 地学-地球科学综合

CiteScore

4.80

自引率

8.30%

发文量

审稿时长

2.3 months

期刊介绍： Terra Nova publishes short, innovative and provocative papers of interest to a wide readership and covering the broadest spectrum of the Solid Earth and Planetary Sciences. Terra Nova encompasses geology, geophysics and geochemistry, and extends to the fluid envelopes (atmosphere, ocean, environment) whenever coupling with the Solid Earth is involved.