启动级联弧

Geology Pub Date : 2024-02-08 DOI:10.1130/g51888.1
J. Tepper, Kenneth P. Clark
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引用次数: 0

摘要

卡斯卡特弧(北美西部)是世界上最年轻的大陆弧,由于下行的胡安-德富卡板块很年轻,它也是全世界俯冲带中最热的末端成员。我们提出的证据表明,在西莱齐亚大洋陆相的增生终止了早期的俯冲系统,并导致法拉隆板块北部断裂之后小于5 m.y.,弧就开始了。级联岩浆活动开始于大约46Ma,西莱蒂西亚外侧出现了一条新的海沟,这一重组通常被归因于俯冲带的向海跃迁。然而,年轻的浮力海洋岩石圈的存在会抵制被挤入地幔,而且弧状岩浆活动的重建非常迅速,这与通过这一过程启动新俯冲带的说法难以调和。我们提出了另一种机制,即随着完整的法拉隆板块南部从加利福尼亚(美国)向北迁移,弧重新建立,将一个转换边缘转换成一个收敛边缘。该模型利用板块重构、岩石学、地幔层析成像和地质年代学来解释俯冲是如何在板块年轻而炽热的环境中开始的,以及为什么最早的卡斯卡特岩浆活动发生在弧的中部而不是末端。
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Initiation of the Cascade arc
The Cascade arc (western North America) is the world’s youngest continental arc, and because the down-going Juan de Fuca plate is young, it is also the hottest end member among subduction zones worldwide. We present evidence that the arc initiated <5 m.y. after accretion of the Siletzia oceanic terrane terminated the earlier subduction system and caused the northern portion of the Farallon slab to break off. Cascade magmatism began ca. 46 Ma with a new trench outboard of Siletzia, a reconfiguration commonly attributed to a seaward jump of the subduction zone. However, the presence of young buoyant oceanic lithosphere that would have resisted being forced into the mantle and the very rapid reestablishment of arc magmatism are hard to reconcile with initiation of a new subduction zone by this process. We propose an alternative mechanism in which the arc was reestablished as the intact southern portion of Farallon slab migrated northward from California (United States), converting a transform margin to a convergent one. This model utilizes plate reconstructions, petrology, mantle tomography, and geochronology to explain how subduction was initiated in a setting where the slab was young and hot and why the earliest Cascade magmatism occurred toward the middle rather than an end of the arc.
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