Journal
GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS
Volume 19, Issue 10, Pages 4048-4062Publisher
AMER GEOPHYSICAL UNION
DOI: 10.1029/2018GC007463
Keywords
East African rift; lithosphere-asthenosphere boundary; continental rifting; receiver functions; partial melt
Categories
Funding
- Natural Environment Research Council [NE/K000985/1, NE/M003507/1, R8/H10/64]
- NERC [NE/L013932/1]
- European Research Council [GA 638665]
- NERC [NE/L013509/1, NE/L013932/1, NE/M003507/1, NE/I001816/1, NE/K000985/1] Funding Source: UKRI
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Imaging the lithosphere is key to understand mechanisms of extension as rifting progresses. Continental rifting results in a combination of mechanical stretching and thinning of the lithosphere, decompression upwelling, heating, sometimes partial melting of the asthenosphere, and potentially partial melting of the mantle lithosphere. The northern East African Rift system is an ideal locale to study these processes as it exposes the transition from tectonically active continental rifting to incipient seafloor spreading. Here we use S-to-P receiver functions to image the lithospheric structure beneath the northernmost East African Rift system where it forms a triple junction between the Main Ethiopian rift, the Red Sea rift, and the Gulf of Aden rift. We image the Moho at 316km beneath the Ethiopian plateau. The crust is 283km thick beneath the Main Ethiopian rift and thins to 232km in northern Afar. We identify a negative phase, a velocity decrease with depth, at 673 km depth beneath the Ethiopian plateau, likely associated with the lithosphere-asthenosphere boundary (LAB), and a lack of a LAB phase beneath the rift. Using observations and waveform modeling, we show that the LAB phase beneath the plateau is likely defined by a small amount of partial melt. The lack of a LAB phase beneath the rift suggests melt percolation through the base of the lithosphere beneath the northernmost East African Rift system.
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