A three-dimensional Moho depth model beneath the Yemeni highlands and rifted volcanic margins of the Red Sea and Gulf of Aden, Southwest Arabia

IF 4.6 3区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY China Geology Pub Date : 2023-10-01 DOI:10.31035/cg2023001

Amin Noman Al Kadasi

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Abstract

Knowing Moho discontinuity undulation is fundamental to understanding mechanisms of lithosphere-asthenosphere interaction, extensional tectonism and crustal deformation in volcanic passive margins such as the study area, which is located in the southwestern corner of the Arabian Peninsula bounded by the Red Sea and the Gulf of Aden. In this work, a 3D Moho depth model of the study area is constructed for the first time by inverting gravity data from the Earth Gravitational Model (EGM2008) using the Parker-Oldenburg algorithm. This model indicates the shallow zone is situated at depths of 20 km to 24 km beneath coastal plains, whereas the deep zone is located below the plateau at depths of 30 km to 35 km and its deepest part coincides mainly with the Dhamar-Rada’a Quaternary volcanic field. The results also indicate two channels of hot magmatic materials joining both the Sana’a-Amran Quaternary volcanic field and the Late Miocene Jabal An Nar volcanic area with the Dhamar-Rada’a volcanic field. This conclusion is supported by the widespread geothermal activity (of mantle origin) distributed along these channels, isotopic data, and the upper mantle low velocity zones indicated by earlier studies.

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阿拉伯西南部也门高地和红海及亚丁湾裂谷火山边缘下的三维莫霍深度模型

研究区位于阿拉伯半岛西南角，以红海和亚丁湾为界，了解莫霍面的不连续起伏对于理解岩石圈-岩石圈相互作用、扩展构造运动和火山被动边缘地壳变形的机制至关重要。在这项研究中，通过使用帕克-奥尔登堡算法反演地球重力模型（EGM2008）的重力数据，首次构建了研究区域的三维莫霍深度模型。该模型表明，浅海区位于沿海平原下方 20 至 24 千米深处，而深海区位于高原下方 30 至 35 千米深处，其最深处主要与达玛尔-拉达第四纪火山区相吻合。研究结果还表明，萨那-阿姆兰第四纪火山区和晚中新世 Jabal An Nar 火山区与 Dhamar-Rada'a 火山区之间有两条热岩浆物质通道。这一结论得到了沿这些通道分布的广泛地热活动（源于地幔）、同位素数据以及早期研究显示的上地幔低速带的支持。

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