俯冲作用对洋脊玄武岩的影响及其意义

Goldschmidt Abstracts Pub Date : 2021-01-08 DOI:10.46427/gold2020.2973

A. Y. Yang, C. Langmuir, Yue Cai, S. Goldstein, P. Michael, Zhongxing Chen

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引用次数: 1

摘要

板块构造旋回产生了化学性质截然不同的洋中脊玄武岩和弧火山岩，弧火山岩富含可流动元素，而由于俯冲板块的通量，弧火山岩缺乏铌元素。弧后盆地(BABB)的玄武岩具有中等成分，表明俯冲通量可以脱离弧。因此，为什么在MORB中很少识别出弧特征是令人困惑的。在这里，我们报告了来自北极Gakkel Ridge的第一个具有明显电弧特征的MORB样本，类似于BABB。576个Gakkel样品的高精度数据集表明，俯冲作用的影响是普遍存在的。这种影响也可以通过“BABB过滤器”在大西洋和印度的MORB中识别出来，但在太平洋MORB中几乎不存在。这种全球分布反映了一个“俯冲盾”的控制，这个“俯冲盾”已经包围了太平洋180Myr。统计数据表明，在对流的上地幔中加入了相当于弧输出量约13%的通量。

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The subduction influence on ocean ridge basalts and its significance

The plate tectonic cycle produces chemically distinct mid-ocean ridge basalts (MORB) and arc volcanics, with the latter enriched in fluid-mobile elements and depleted in Nb owing to fluxes from the subducted slab. Basalts from back-arc basins (BABB), with intermediate compositions, show that the subduction flux can escape the arc. Hence it is puzzling why arc signatures have rarely been recognized in MORB. Here we report the first MORB samples with distinct arc signatures, akin to BABB, from the Arctic Gakkel Ridge. A new high precision dataset for 576 Gakkel samples suggests a pervasive subduction influence. This influence can also be identified in Atlantic and Indian MORB with a “BABB filter”, but is nearly absent in Pacific MORB. This global distribution reflects the control of a “subduction shield” that has surrounded the Pacific Ocean for 180Myr. Statistics suggest that a flux equivalent to ~ 13% of output at arcs is incorporated into the convecting upper mantle.

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