Breaking the Ring of Fire: How Ridge Collision, Slab Age, and Convergence Rate Narrowed and Terminated the Antarctic Continental Arc

IF 3.3 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Tectonics Pub Date : 2023-04-18 DOI:10.1029/2022TC007634
A. Burton‐Johnson, J. Bastías, S. Kraus
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引用次数: 1

Abstract

The geometry of the Antarctic‐Phoenix Plate system, with the Antarctic Plate forming both the overriding plate and the conjugate to the subducting oceanic plate, allows quantification of slab age and convergence rate back to the Paleocene and direct comparison with the associated magmatic arc. New Ar‐Ar data from Cape Melville (South Shetland Islands, SSI) and collated geochronology shows Antarctic arc magmatism ceased at ∼19 Ma. Since the Cretaceous, the arc front remained ∼100 km from the trench whilst its rear migrated trenchward at 6 km/Myr. South of the SSI, arc magmatism ceased ∼8–5 Myr prior to each ridge‐trench collision, whilst on the SSI (where no collision occurred) the end of arc magmatism predates the end of subduction by ∼16 Myr. Despite the narrowing and successive cessation of the arc, geochemical and dyke orientation data shows the arc remained in a consistently transitional state of compressional continental arc and extensional backarc tectonics. Numerically relating slab age, convergence rate, and slab dip to the Antarctic‐Phoenix Plate system, we conclude that the narrowing of the arc and the cessation of magmatism south of the SSI was primarily in response to the subduction of progressively younger oceanic crust, and secondarily to the decreasing convergence rate. Increased slab dip beneath the SSI migrated the final magmatism offshore. Comparable changes in the geometry and composition are observed on the Andean arc, suggesting slab age and convergence rate may affect magmatic arc geometry and composition in settings currently attributed to slab dip variation.
打破火环:脊碰撞、板块年龄和辐合速率如何使南极大陆弧变窄并终止
南极-凤凰板块系统的几何结构,南极板块形成了上覆板块和俯冲洋板块的共轭板块,使得板块年龄和收敛速度可以量化到古新世,并直接与相关的岩浆弧进行比较。来自梅尔维尔角(南设得兰群岛,SSI)的新Ar - Ar数据和整理的地质年代学表明,南极弧岩浆活动在~ 19 Ma停止。自白垩纪以来,弧锋保持在距海沟约100公里的位置,而弧锋的后方以6 km/Myr的速度向海沟移动。在SSI以南,弧岩浆活动在每次脊-沟碰撞之前停止了~ 8-5 Myr,而在SSI(没有发生碰撞的地方),弧岩浆活动的结束比俯冲结束早了~ 16 Myr。地球化学和岩脉定向资料表明,尽管弧的收缩和连续停止,但弧始终处于挤压大陆弧和伸展弧后构造的过渡状态。将板块年龄、辐合速率和板块倾角与南极-凤凰板块系统进行数值关联,我们得出结论:弧的缩小和SSI以南岩浆活动的停止主要是对逐渐年轻的海洋地壳俯冲的反应,其次是辐合速率的降低。SSI下增加的板块倾角将最终的岩浆活动迁移到近海。在安第斯弧上观察到类似的几何形状和组成变化,表明在目前归因于板块倾角变化的环境中,板块年龄和收敛速度可能会影响岩浆弧的几何形状和组成。
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来源期刊
Tectonics
Tectonics 地学-地球化学与地球物理
CiteScore
7.70
自引率
9.50%
发文量
151
审稿时长
3 months
期刊介绍: Tectonics (TECT) presents original scientific contributions that describe and explain the evolution, structure, and deformation of Earth¹s lithosphere. Contributions are welcome from any relevant area of research, including field, laboratory, petrological, geochemical, geochronological, geophysical, remote-sensing, and modeling studies. Multidisciplinary studies are particularly encouraged. Tectonics welcomes studies across the range of geologic time.
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