温奇科姆米格类碳质软玉岩岩性中的粒度破碎现象

IF 2.2 4区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Luke Daly, Martin D. Suttle, Martin R. Lee, John Bridges, Leon Hicks, Pierre-Etienne M. C. Martin, Cameron J. Floyd, Laura E. Jenkins, Tobias Salge, Ashley J. King, Natasha V. Almeida, Diane Johnson, Patrick W. Trimby, Haithem Mansour, Fabian B. Wadsworth, Gavyn Rollinson, Matthew J. Genge, James Darling, Paul A. J. Bagot, Lee F. White, Natasha R. Stephen, Jennifer T. Mitchell, Sammy Griffin, Francesca M. Willcocks, Rhian Jones, Sandra Piazolo, Joshua F. Einsle, Alice Macente, Lydia J. Hallis, Aine O'Brien, Paul F. Schofield, Sara S. Russell, Helena Bates, Caroline Smith, Ian Franchi, Lucy V. Forman, Phil A. Bland, David Westmoreland, Iain Anderson, Richard Taylor, Mark Montgomery, Mark Parsons, Jérémie Vasseur, Matthias van Ginneken, Penelope J. Wozniakiewicz, Mark J. Burchell, Daniel Hallatt, Luke S. Alesbrook, Vassilia Spathis, Richard Worden, Julie Behnsen, Kate Black, the UK Fireball Alliance
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引用次数: 0

摘要

米格类碳质(CM)陨石在其母体小行星上因水-岩石反应而发生了不同程度的改变。这种水加工破坏了这些陨石的大部分原生矿物学,其蚀变程度在宏观和纳米尺度上都是高度异质的。许多中生代陨石还具有严重的角砾化,将具有不同蚀变历史的碎屑并列在一起。温奇科姆陨石是一块新近坠落的 CM 陨石,它是一块角砾岩,包含八种不同的岩性,跨越了一系列岩石学亚型(CM2.0-2.6),悬浮在一个碎屑基质中。对该角砾岩进行的多技术、多尺度协调分析表明,即使在高度水处理的岩性中,蚀变程度也存在很大的异质性。有些岩性表现出完整的蚀变范围,包括几乎未发生蚀变的粗粒原生成分,这些原生成分直接与经历了次生矿物完全假形态置换的其他粗粒成分并存。完整蚀变序列的保留和假象纹理显示托氏石-铁闪长岩互生体正在取代碳酸盐,这表明 CMs 最初富含的碳酸盐可能比之前认为的要多。水蚀变程度的这种异质性很可能是由于渗透性和水/岩石比的微尺度变化共同作用产生了局部微环境,这一点之前已经得到证实。尽管如此,所观察到的一些不平衡矿物组合,如水相矿物与通常更易受流体影响的残存相并置,只能通过多代的蚀变、破坏以及 CM 母体在晶粒尺度上的重新生成来协调。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Brecciation at the grain scale within the lithologies of the Winchcombe Mighei-like carbonaceous chondrite

Brecciation at the grain scale within the lithologies of the Winchcombe Mighei-like carbonaceous chondrite

The Mighei-like carbonaceous (CM) chondrites have been altered to various extents by water–rock reactions on their parent asteroid(s). This aqueous processing has destroyed much of the primary mineralogy of these meteorites, and the degree of alteration is highly heterogeneous at both the macroscale and nanoscale. Many CM meteorites are also heavily brecciated juxtaposing clasts with different alteration histories. Here we present results from the fine-grained team consortium study of the Winchcombe meteorite, a recent CM chondrite fall that is a breccia and contains eight discrete lithologies that span a range of petrologic subtypes (CM2.0–2.6) that are suspended in a cataclastic matrix. Coordinated multitechnique, multiscale analyses of this breccia reveal substantial heterogeneity in the extent of alteration, even in highly aqueously processed lithologies. Some lithologies exhibit the full range and can comprise nearly unaltered coarse-grained primary components that are found directly alongside other coarse-grained components that have experienced complete pseudomorphic replacement by secondary minerals. The preservation of the complete alteration sequence and pseudomorph textures showing tochilinite–cronstedtite intergrowths are replacing carbonates suggest that CMs may be initially more carbonate rich than previously thought. This heterogeneity in aqueous alteration extent is likely due to a combination of microscale variability in permeability and water/rock ratio generating local microenvironments as has been established previously. Nevertheless, some of the disequilibrium mineral assemblages observed, such as hydrous minerals juxtaposed with surviving phases that are typically more fluid susceptible, can only be reconciled by multiple generations of alteration, disruption, and reaccretion of the CM parent body at the grain scale.

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来源期刊
Meteoritics & Planetary Science
Meteoritics & Planetary Science 地学天文-地球化学与地球物理
CiteScore
3.90
自引率
31.80%
发文量
121
审稿时长
3 months
期刊介绍: First issued in 1953, the journal publishes research articles describing the latest results of new studies, invited reviews of major topics in planetary science, editorials on issues of current interest in the field, and book reviews. The publications are original, not considered for publication elsewhere, and undergo peer-review. The topics include the origin and history of the solar system, planets and natural satellites, interplanetary dust and interstellar medium, lunar samples, meteors, and meteorites, asteroids, comets, craters, and tektites. Our authors and editors are professional scientists representing numerous disciplines, including astronomy, astrophysics, physics, geophysics, chemistry, isotope geochemistry, mineralogy, earth science, geology, and biology. MAPS has subscribers in over 40 countries. Fifty percent of MAPS'' readers are based outside the USA. The journal is available in hard copy and online.
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