| Abstract: | Simultaneous inversion of teleseismic data results in a model for the western branch of the East African Rift system between 1°S and 10°N characterized by a 35 km crust and thin high-velocity lid, overlying a channel possessing both low S and low P velocities (4.47 and 7.69 km/sec, respectively). A strong reflector at 140 km depth marks the boundary to high-velocity material (4.67 and 8.44 km/sec, respectively).The eastern branch has a crustal thickness of 40 km and is characterized by low S velocities, 4.43 km/sec in the lid to a depth of 78 km, 4.09–4.21 km/sec in a channel which extends to 161 km depth. The S velocities remain relatively low at greater depths, but cannot be precisely determined because of the limited resolution.We have interpreted these and other geophysical data as due to a diapiric intrusion of material with a high pyroxene content and possibly with some low-density eclogite, coming from the mesosphere. A mushroom of this rock has stalled below the western branch at about 55 km below the surface and is cooling. The diapirism in the eastern branch has broken through to the surface. The mantle of the African shield to the west of the Rift shows seismic velocities which indicate that it is depleted in basaltic components. |
