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Upper mantle structure of the southern Arabian margin: Insights from teleseismic tomography (2015)

Korostelev, F., Leroy, S., Keir, D., Ahmed, A., Boschi, L., Rolandone, F., Stuart, G. W., Obrebski, M., Khanbari, K., El-Hussain, I.

Geological Society of America (GSA)

In: Geosphere

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Publication Date: 2015-09-30

Description: We image the lithospheric and upper asthenospheric structure beneath the central and eastern parts of the northern Gulf of Aden rifted passive continental margin with 59 broadband stations to evaluate the role of transform fault zones on the evolution of magma-poor continental margins. We used teleseismic tomography to compute a relative P wave velocity model in eastern Yemen and southern Oman down to 400 km depth. Our model shows low-velocity anomalies located in the vicinities of five major fracture zones and regions of recent volcanism. These low-velocity anomalies are likely caused by localized asthenospheric upwelling and partial melting, caused by small-scale convection promoted by gradients in the lithosphere-asthenosphere boundary topography near the fracture zones. In addition, low velocities underlie regions of elevated topography between major sedimentary basins. We suggest that locally buoyant mantle creates uplift and dynamic topography on the rift margin that affects the course of seasonal rivers and the sedimentation at the mouth of those rivers. Our new P wave velocity model suggests that the dynamic topography and recent volcanism in the central and eastern Gulf of Aden could be due to small-scale convection at the edge of the Arabian plate and/or in the vicinity of fracture zones.

Electronic ISSN: 1553-040X

Topics: Geosciences

Published by Geological Society of America (GSA)

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Uppermost mantle velocity from Pn tomography in the Gulf of Aden (2014)

Corbeau, J., Rolandone, F., Leroy, S., Al-Lazki, A., Stork, A. L., Keir, D., Stuart, G. W., Hammond, J. O. S., Doubre, C., Vergne, J., Ahmed, A., Khanbari, K.

Geological Society of America (GSA)

In: Geosphere

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Publication Date: 2014-10-01

Description: We determine the lateral variations in seismic velocity of the lithospheric mantle beneath the Gulf of Aden and its margins by inversion of Pn (upper mantle high-frequency compressional P wave) traveltimes. Data for this study were collected by several temporary seismic networks and from the global catalogue. A least-squares tomographic algorithm is used to solve for velocity variations in the mantle lithosphere. In order to separate shallow and deeper structures, we use separate inversions for shorter and longer ray path data. High Pn velocities (8.2–8.4 km/s) are observed in the uppermost mantle beneath Yemen that may be related to the presence of magmatic underplating of the volcanic margins of Aden and the Red Sea. Zones of low velocity (7.7 km/s) are present in the shallow upper mantle beneath Sana’a, Aden, Afar, and along the Gulf of Aden that are likely related to melt transport through the lithosphere feeding active volcanism. Deeper within the upper mantle, beneath the Oman margin, a low-velocity zone (7.8 km/s) suggests a deep zone of melt accumulation. Our results provide evidence that the asthenosphere undergoes channelized flow from the Afar hotspot toward the east along the Aden and Sheba Ridges.

Electronic ISSN: 1553-040X

Topics: Geosciences

Published by Geological Society of America (GSA)

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