古成因高原部分熔融层的粘度

IF 4.8 1区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Earth and Planetary Science Letters Pub Date : 2024-10-15 DOI:10.1016/j.epsl.2024.119060

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引用次数: 0

摘要

造山运动高原（如西藏、高原）的特点是海拔高，顶部平坦，地壳厚度显著增加。部分熔融被认为会削弱造山运动高原的中地壳，从而降低地壳的粘度；然而，部分熔融的数量和相关削弱的程度仍未确定。新英格兰阿巴拉契亚山脉是古造山运动高原中下地壳裸露部分，类似于现代西藏。在这项研究中，我们利用变形带间距与压实长度之间的关系来约束泥盆纪晚期伟晶岩的中地壳剪切粘度。我们发现，在新英格兰阿巴拉契亚山脉古成因高原，熔融度为 3-9% 的情况下，中间造山地壳的粘度为 1017-18 Pa∙s。这一发现与造山通道流的地球物理模型一致，并为低熔融分率时的显著流变转变提供了实地证据。我们的研究结果表明，在造山高原中形成薄弱的中岩壳层的关键因素是水的涌入和含水花岗岩固结点附近的温度。

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The viscosity of a partially molten layer in a paleo-orogenic plateau

Orogenic plateaus (e.g., Tibet, Altiplano) are characterized by broad, flat-top topography at high elevation and significantly increased crustal thickness. Partial melt is thought to weaken the middle crust of orogenic plateaus, and thus reduce the viscosity of the crust; however, the amount of partial melt and the magnitude of associated weakening remain unconstrained. The New England Appalachians represent an exposed mid- to lower crustal section of a paleo-orogenic plateau, similar to modern-day Tibet. In this study, we utilize the relationship between the spacing of deformation bands and the compaction length to constrain mid-crustal shear viscosity in a late Devonian migmatite. We find that the viscosity of the middle orogenic crust in the paleo-orogenic plateau of the New England Appalachians is 10^17–18 Pa∙s at ∼3–9% melt. This finding is consistent with geophysical models of orogenic channel flow and provides field-based evidence for a significant rheologic transition at low melt-fraction. Our results suggest that the key elements for the formation of a weak, mid-crustal layer in orogenic plateaus are an influx of water and temperatures near the hydrous granite solidus.

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来源期刊

Earth and Planetary Science Letters 地学-地球化学与地球物理

CiteScore

10.30

自引率

5.70%

发文量

475

审稿时长

2.8 months

期刊介绍： Earth and Planetary Science Letters (EPSL) is a leading journal for researchers across the entire Earth and planetary sciences community. It publishes concise, exciting, high-impact articles ("Letters") of broad interest. Its focus is on physical and chemical processes, the evolution and general properties of the Earth and planets - from their deep interiors to their atmospheres. EPSL also includes a Frontiers section, featuring invited high-profile synthesis articles by leading experts on timely topics to bring cutting-edge research to the wider community.