大型撞击坑中环峰的形成。

The formation of peak rings in large impact craters.

机构信息

Department of Earth Science and Engineering, Imperial College London, SW7 2AZ, UK.

Institute for Geophysics, Jackson School of Geosciences, University of Texas at Austin, TX 78758-4445, USA.

出版信息

Science. 2016 Nov 18;354(6314):878-882. doi: 10.1126/science.aah6561.

DOI:10.1126/science.aah6561

PMID:27856906

Abstract

Large impacts provide a mechanism for resurfacing planets through mixing near-surface rocks with deeper material. Central peaks are formed from the dynamic uplift of rocks during crater formation. As crater size increases, central peaks transition to peak rings. Without samples, debate surrounds the mechanics of peak-ring formation and their depth of origin. Chicxulub is the only known impact structure on Earth with an unequivocal peak ring, but it is buried and only accessible through drilling. Expedition 364 sampled the Chicxulub peak ring, which we found was formed from uplifted, fractured, shocked, felsic basement rocks. The peak-ring rocks are cross-cut by dikes and shear zones and have an unusually low density and seismic velocity. Large impacts therefore generate vertical fluxes and increase porosity in planetary crust.

摘要

大型撞击为行星表面物质的更新提供了一种机制，通过将近地表的岩石与更深层的物质混合来实现。中央峰是在陨石坑形成过程中岩石的动力抬升形成的。随着陨石坑尺寸的增加，中央峰会逐渐过渡到峰环。由于缺乏样本，关于峰环形成的机制及其起源深度的争论仍在继续。希克苏鲁伯是地球上唯一一个已知的具有明确峰环的撞击结构，但它被掩埋了，只能通过钻探才能进入。364 号考察队对希克苏鲁伯峰环进行了采样，我们发现它是由抬升、断裂、冲击、长英质基底岩石组成的。峰环岩石被岩脉和剪切带横穿，密度和地震速度异常低。因此，大型撞击会产生垂直通量，并增加行星地壳的孔隙度。

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大型撞击坑中环峰的形成。

The formation of peak rings in large impact craters.

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