orosiian (2.05 ~ 1.80 Ga)碰撞后克拉通前深的地壳喷发和板块破裂岩浆作用:加拿大Tu Cho (Great Slave Lake) Seton火山和Compton泥质岩的年代学

IF 1.3 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Canadian Journal of Earth Sciences Pub Date : 2023-05-01 DOI:10.1139/cjes-2023-0011

P. Hoffman, F. Macdonald, S. Bowring, Ramezani JR Jahan, R. Buchwaldt, R. Hildebrand, J. Whalen

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引用次数: 1

摘要

在奴克拉通边缘保存着3个奥陶纪盆地及其相关的前陆逆冲褶皱带。这三个都与造山带有关，在造山带中，海洋打开又关闭，形成了新的地壳伙伴。大奴隶盆地与Kilhigok和Coronation盆地的不同之处在于无法解释。它缺乏被动边缘层序，拥有两个离散的火成岩套，被大规模的逆冲分隔开，发生在邻近的古海洋关闭之后。本文利用CA-ID-TIMS对每组地层进行了U-Pb锆石年代学分析，以确定碰撞后逆冲作用的年龄和成因。在1889.0±0.7 Ma (2σ内误差)发生了广泛的以潜水碱性火山活动为主的脉冲，与前深挠曲的恢复同时发生。在1866.9±0.9 Ma的位置发现了一个石英-二黄长石体，它是逆冲运动后的带状平行链中的一个。这些时代包含了更新的前深沉积和冲断作用，这些沉积和冲断作用扩展了主要的相带，并扎根于盆地内部。在Thelon造山带和Taltson造山带，碰撞年龄分别比碰撞年龄小70和30 ~ 60 Myr。我们将碰撞后的逆冲和前深下沉归因于“喷出”——部分俯冲的地壳向上和向外喷出——并假设喷出的楔块顶部是一个正常意义上的滑脱断层，突出在诺纳乔盆地之下。我们推断，喷出是由板岩破坏引发的，产生碱性火山作用，并以脱层和泥质侵位结束。信风驱动的侵蚀促进了土壤的流失。地壳转移到排出的楔块，降低了下盘浮力，从而实现了分层。板坯破坏和/或分层消除了被动边缘。

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Crustal eduction and slab-failure magmatism in an Orosirian (2.05−1.80 Ga) post-collisional cratonic foredeep: geochronology of Seton volcanics and Compton laccoliths, Tu Cho (Great Slave Lake), NWT, Canada

Three Orosirian basins and associated foreland thrust-fold belts are preserved on the margins of Slave craton. All three are related to orogenic belts where oceans opened and later closed uniting new crustal partners. Great Slave basin differs from Kilhigok and Coronation basins in ways that have defied explanation. It lacks a passive-margin sequence and hosts two discrete igneous suites, separated by large-scale thrusting, occurring well after the adjacent paleocean had closed. Here we report U-Pb zircon geochronology by CA-ID-TIMS for a member of each suite to constrain the age and origin of post-collisional thrusting. A widespread pulse of mainly phreatic alkaline volcanism, coeval with renewed foredeep flexure, occurred at 1889.0±0.7 Ma (2σ internal error). A quartz-monzodiorite body, one of a belt-parallel chain of laccoliths that postdate thrusting, was emplaced at 1866.9±0.9 Ma. These ages bracket renewed foredeep sedimentation and thrusting that telescoped major facies zones and was rooted within the basin. The older age is 70 and 30−60 Myr younger than collision in Thelon and Taltson orogen, respectively. We attribute post-collisional thrusting and foredeep subsidence to ‘eduction’—the upward and outward ejection of partly-subducted crust—and postulate that the top of the ejected wedge was a normal-sense detachment fault projecting beneath Nonacho basin. We infer that eduction was triggered by slab failure, producing alkaline volcanism, and ended with delamination and laccolith emplacement. Eduction was facilitated by tradewind–driven erosion. Delamination was enabled by crustal transfer to the educted wedge, reducing footwall buoyancy. Slab-failure and/or delamination removed the passive margin.

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来源期刊

Canadian Journal of Earth Sciences 地学-地球科学综合

CiteScore

2.80

自引率

7.10%

发文量

审稿时长

6-12 weeks

期刊介绍： The Canadian Journal of Earth Sciences reports current research in climate and environmental geoscience; geoarchaeology and forensic geoscience; geochronology and geochemistry; geophysics; GIS and geomatics; hydrology; mineralogy and petrology; mining and engineering geology; ore deposits and economic geology; paleontology, petroleum geology and basin analysis; physical geography and Quaternary geoscience; planetary geoscience; sedimentology and stratigraphy; soil sciences; and structural geology and tectonics. It also publishes special issues that focus on information and studies about a particular segment of earth sciences.