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African cratonic lithosphere carved by mantle plumes
How cratons, the ancient cores of continents, evolved since their formation over 2.5 Ga ago is debated. Seismic tomography can map the thick lithosphere of cratons, but its resolution is low in sparsely sampled continents. Here we show, using waveform tomography with a large, newly available dataset...
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| Published in: | Nature communications 2020-01, Vol.11 (1), p.92-10, Article 92 |
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| cites | cdi_FETCH-LOGICAL-c564t-ec689f12295b783aed819a1df2feaf417461f1df4d87ff62dd70d801e07b50b3 |
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| creator | Celli, Nicolas Luca Lebedev, Sergei Schaeffer, Andrew J. Gaina, Carmen |
| description | How cratons, the ancient cores of continents, evolved since their formation over 2.5 Ga ago is debated. Seismic tomography can map the thick lithosphere of cratons, but its resolution is low in sparsely sampled continents. Here we show, using waveform tomography with a large, newly available dataset, that cratonic lithosphere beneath Africa is more complex and fragmented than seen previously. Most known diamondiferous kimberlites, indicative of thick lithosphere at the time of eruption, are where the lithosphere is thin today, implying surprisingly widespread lithospheric erosion over the last 200 Ma. Large igneous provinces, attributed to deep-mantle plumes, were emplaced near all lithosphere-loss locations, concurrently with or preceding the loss. This suggests that the cratonic roots foundered once modified by mantle plumes. Our results imply that the total volume of cratonic lithosphere has decreased since its Archean formation, with the fate of each craton depending on its movements relative to plumes.
Cratons represent the ancient cores of continental plates and are generally thought to have been stable since the Archean. Here however, the authors combine seismic analysis with kimberlite data to infer complete destruction of cratonic lithosphere in some places of the African continent. |
| doi_str_mv | 10.1038/s41467-019-13871-2 |
| format | article |
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| subjects | 704/2151/210 704/2151/2809 704/2151/508 704/2151/562 Continents Cratons Diamonds Humanities and Social Sciences Lithosphere Magma Mantle multidisciplinary Plumes Science Science (multidisciplinary) Tomography Waveforms |
| title | African cratonic lithosphere carved by mantle plumes |
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