PROGRESSIVE STRAIN LOCALIZATION AND FLUID FOCUSING IN MANTLE SHEAR ZONES DURING RIFTING: PETROSTRUCTURAL CONSTRAINTS FROM THE ZABARGAD PERIDOTITES, RED SEA

IF 3.5 2区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Journal of Petrology Pub Date : 2024-07-24 DOI:10.1093/petrology/egae081

M Chardelin, A Tommasi, J A Padrón-Navarta

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Abstract

This article documents the evolution of pressure and temperature conditions and the successive influence of hydrous melts and aqueous fluids on the operation of extensional shear zones, which exhumed mantle slivers from deep lithospheric or asthenospheric depths, in a rift-to-drift setting. These results are based on a re-analysis of 40 samples from three peridotite massifs of Zabargad island in the northern Red Sea. By integrating high-resolution mapping of the microstructure by electron backscattered diffraction with recent developments in barometry for plagioclase-bearing peridotites and thermodynamic modelling of peridotitic compositions, this study: (1) constrains the temporal and spatial evolution of petrological and tectonic processes in the shallow mantle during rifting and (2) documents the presence of melts or aqueous fluids throughout the activity of the shear zones, unravelling substantial feedback between petrological and tectonic processes. Thermobarometry and thermodynamic modelling, constrained by the microstructural observations, document progressive strain localization associated with shearing under decreasing pressure and temperature, from near solidus conditions at >1 GPa (in the north and central peridotite massifs) or ~0.7 GPa (in the southern massif) to < 600°C and <0.3 GPa in all three massifs. The data substantiate local aqueous fluid saturation in the shear zones. This together with higher contents of hydrous minerals in ultramylonites indicate fluid focusing in the shear zones, with seawater ingress extending to >10 km depth. The presence of melts or fluids enabled concurrent dislocation and dissolution-precipitation creep, resulting in weakening of the shear zones. However, fluid supply was spatially heterogeneous and likely intermittent, with equilibrium achieved only locally in the ultramylonites. The present study documents therefore how the feedback between progressive strain localization and fluid-focusing in extensional shear zones contributes to thinning and exhumation of the mantle during continental rifting and the rift-to-drift transition.

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断裂过程中地幔剪切带中的渐进应变定位和流体聚焦：来自红海扎巴尔加德橄榄岩的岩石结构制约因素

这篇文章记录了压力和温度条件的演变，以及含水熔体和含水流体对延伸剪切带运行的连续影响，这些剪切带在断裂到漂移的环境中，从岩石圈或天体层深处吐出地幔碎片。这些结果基于对来自红海北部扎巴尔加德岛三个橄榄岩岩块的 40 个样本的重新分析。这项研究通过电子反向散射衍射对微观结构进行高分辨率测绘，并结合含斜长石橄榄岩的气压测定法和橄榄岩成分热力学模型的最新进展，得出了以下结果：(1) 制约了断裂期间浅地幔岩石学和构造过程的时空演变；(2) 记录了整个剪切带活动过程中熔体或水液的存在，揭示了岩石学和构造过程之间的实质性反馈。在微结构观测的制约下，热压计和热力学模型记录了在压力和温度不断降低的情况下，与剪切有关的应变逐渐局部化，从北部和中部橄榄岩岩块的近固结条件（1 GPa）或南部岩块的约 0.7 GPa，到所有三个岩块的 600°C 和 0.3 GPa。这些数据证实了剪切带的局部水液饱和。这一点以及超基性岩中较高的含水矿物含量表明，流体集中在剪切带，海水进入的深度可达10千米。熔体或流体的存在使位错和溶解-沉淀蠕变同时发生，导致剪切带减弱。然而，流体供应在空间上是异质的，而且很可能是间歇性的，只有在超基性岩的局部地区才能达到平衡。因此，本研究记录了延伸剪切带中的渐进应变局部化与流体集中之间的反馈如何在大陆裂陷和裂陷向裂陷过渡期间促进地幔的减薄和排挤。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Petrology 地学-地球化学与地球物理

CiteScore

6.90

自引率

12.80%

发文量

117

审稿时长

12 months

期刊介绍： The Journal of Petrology provides an international forum for the publication of high quality research in the broad field of igneous and metamorphic petrology and petrogenesis. Papers published cover a vast range of topics in areas such as major element, trace element and isotope geochemistry and geochronology applied to petrogenesis; experimental petrology; processes of magma generation, differentiation and emplacement; quantitative studies of rock-forming minerals and their paragenesis; regional studies of igneous and meta morphic rocks which contribute to the solution of fundamental petrological problems; theoretical modelling of petrogenetic processes.