Orogen-parallel discontinuity of the Apennines subduction zone in Southern Italy as seen from mantle wedge seismic structure

IF 2.1 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Journal of Geodynamics Pub Date : 2023-11-28 DOI:10.1016/j.jog.2023.102004
Nicola Piana Agostinetti
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Abstract

We investigate the seismic structure of the mantle wedge of the Apennines subduction zone (Central Mediterranean) using teleseismic receiver function (RF). We inverted RF for both isotropic and anisotropic properties of the mantle wedge, from below the overriding Moho to the “plate boundary”, i.e. the interface that separate the slab from the mantle wedge. Given the distribution of the seismic network, we are able to map out the change in the elastic properties at the transition between southern apennines and the Calabrian arc, given by the change in the subduction style (i.e from the subduction of continental materials to oceanic plate). We found that the anisotropy in the mantle wedge is similar between all seismic stations, generally highly anisotropic (> 10%), with a direction of the symmetry axis that rotates clockwise from North to South, following the Calabrian arc geometry and likely indicating the mantle flow driven by the slab retreat. The elastic properties of the subducted crust are more heterogeneous. To the North, the subducted crust shows a highly anisotropic (> 10%) behavior, and it occurs at larger depth (around 70 km depth), where to the South anisotropy is less intense (around 7%) and the subducted crust is shallower (around 60 km depth). These results point out a change in the subduction style that can be given by either a change in the metamorphic phase (more evolved blueschist facies stage to the North, initial greenschist facies stage to the South) or a different origin for the subducted materials (continental to the North and oceanic to the South). The differences in the anisotropic behavior of the subducted crust are reflected in the topography of the plate boundary, which becomes shallower from North to South, suggesting the existence of either a step in the slab topography or a more gentle ramp.

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从地幔楔地震构造看意大利南部亚平宁俯冲带的造山带平行不连续
利用远震接收函数(RF)研究了亚平宁俯冲带(地中海中部)地幔楔的地震结构。我们反演了地幔楔各向同性和各向异性的RF,从覆盖莫霍下面到“板块边界”,即将板块与地幔楔分开的界面。根据地震台网的分布,我们可以绘制出南亚平宁和卡拉布里亚弧之间的过渡时期弹性性质的变化,这是由俯冲方式的变化(即从大陆物质向海洋板块的俯冲)引起的。我们发现,各地震台站的地幔楔各向异性是相似的,普遍具有高度的各向异性(>10%),其对称轴方向从北向南顺时针旋转,遵循卡拉布里亚弧的几何形状,可能表明由板块后退驱动的地幔流动。俯冲地壳的弹性性质更加不均匀。向北,俯冲地壳表现出高度的各向异性(>10%)的行为,并且它发生在较大的深度(约70 km深度),其中向南的各向异性较弱(约7%),俯冲地壳较浅(约60 km深度)。这些结果表明,俯冲方式的变化可能是变质期的变化(向北更演化的蓝片岩相阶段,向南初始的绿片岩相阶段)或俯冲物质的不同来源(北为大陆,南为海洋)造成的。俯冲地壳各向异性行为的差异反映在板块边界的地形上,从北向南变浅,表明存在板块地形的台阶或更平缓的斜坡。
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来源期刊
Journal of Geodynamics
Journal of Geodynamics 地学-地球化学与地球物理
CiteScore
4.60
自引率
0.00%
发文量
21
审稿时长
6-12 weeks
期刊介绍: The Journal of Geodynamics is an international and interdisciplinary forum for the publication of results and discussions of solid earth research in geodetic, geophysical, geological and geochemical geodynamics, with special emphasis on the large scale processes involved.
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