Crustal structure of the Main Ethiopian Rift from gravity data: 3-dimensional modeling

A three-dimensional interpretation of the newly compiled Bouguer anomaly map of the Main Ethiopian Rift is presented. A high-resolution 3-D model constrained with the seismic results reveals a possible crustal thickness and density distribution beneath the graben. The Bouguer anomalies along the axi...

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Bibliographic Details
Published inTectonophysics Vol. 313; no. 4; pp. 363 - 382
Main Authors Mahatsente, R., Jentzsch, G., Jahr, T.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 30.11.1999
Subjects
3-dimensional gravity modeling
Bouguer anomaly
intrusion
Main Ethiopian Rift
Wonji Fault Belt
Bouguer anomaly
3-dimensional gravity modeling
intrusion
Wonji Fault Belt
Main Ethiopian Rift
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Summary:A three-dimensional interpretation of the newly compiled Bouguer anomaly map of the Main Ethiopian Rift is presented. A high-resolution 3-D model constrained with the seismic results reveals a possible crustal thickness and density distribution beneath the graben. The Bouguer anomalies along the axial portion of the rift floor, as deduced from the results of the regional and residual separation, are mainly caused by the deep-seated structures. The inferred zone of intrusion, which is the main subject of the present study, coincides with the maximum gravity anomaly of the rift floor. The intrusion is displaced at several sectors along the east–west direction, and the two major displacements coincide with the locations of the major rift offsets on the surface. Because of the asthenospheric uplift, the crust under the Main Ethiopian Rift is slightly thinned. The zone of crustal thinning (≤31 km) coincides with the location of the intrusion beneath the rift floor, and the maximum of which is attained in the northern and central sectors of the graben. The trend of the crustal thinning zone, which is from south to north, is the same as the one obtained in the Afar depression. The southeastern and western plateaus, on the other hand, show by far the largest crustal thickness in the region (38–51 km). In contrast to the Afar depression, where the crust is partly oceanized, the thickness and density of the crust suggest that the Main Ethiopian Rift is underlain by a purely continental crust. The deep and relatively large nature of the intrusion leads to the conclusion that a large-scale asthenospheric upwelling might be responsible for the thinning of the crust and subsequent rifting of the graben.
ISSN:0040-1951
1879-3266
DOI:10.1016/S0040-1951(99)00213-9