Birth of the East African Rift System: Nucleation of magmatism and strain in the Turkana Depression
© 2019 Geological Society of America. The Turkana Depression of northern Kenya and southern Ethiopia contains voluminous plume-related basalts that mark the onset of the Paleogene-recent East African Rift System (EARS) at ca. 45 Ma. Thus, the Turkana Depression is crucial to understanding the incept...
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th-cmuir.6653943832-666502019-09-16T12:51:19Z Birth of the East African Rift System: Nucleation of magmatism and strain in the Turkana Depression Samuel C. Boone Barry P. Kohn Andrew J.W. Gleadow Christopher K. Morley Christian Seiler David A. Foster Earth and Planetary Sciences © 2019 Geological Society of America. The Turkana Depression of northern Kenya and southern Ethiopia contains voluminous plume-related basalts that mark the onset of the Paleogene-recent East African Rift System (EARS) at ca. 45 Ma. Thus, the Turkana Depression is crucial to understanding the inception of intracontinental rifting. However, the precise chronology of early rift-basin formation in Turkana is poorly constrained. We present apatite fission-track and (U-Th-Sm)/He thermochronology data from basement rocks from the margins of the north-south-trending Lokichar Basin that constrain the onset of rift-related cooling. Thermal history modeling of these data documents pronounced Eocene to Miocene denudational cooling of the basinbounding Lokichar fault footwall. These results, along with ~7 km of Paleogene to middle Miocene syn-rift strata preserved in the Lokichar fault hanging wall, suggest that formation of the Lokichar Basin began as early as ca. 45-40 Ma. Preexisting lithospheric heterogeneities inherited from earlier Mesozoic rifting and Eocene plume magmatism likely facilitated the broadly concurrent nucleation of strain in the Turkana Depression, up to ~15 m.y. earlier than EARS initiation elsewhere. Late Paleogene extension in the Lokichar Basin and other parts of Turkana significantly predate the Miocene creation of pronounced plume-related topography in East Africa, suggesting that other mechanism(s), such as far-field stresses or mantle basal drag, likely played a critical role during EARS inception. 2019-09-16T12:51:19Z 2019-09-16T12:51:19Z 2019-01-01 Journal 19432682 00917613 2-s2.0-85072010108 10.1130/G46468.1 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85072010108&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/66650 |
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Earth and Planetary Sciences Samuel C. Boone Barry P. Kohn Andrew J.W. Gleadow Christopher K. Morley Christian Seiler David A. Foster Birth of the East African Rift System: Nucleation of magmatism and strain in the Turkana Depression |
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© 2019 Geological Society of America. The Turkana Depression of northern Kenya and southern Ethiopia contains voluminous plume-related basalts that mark the onset of the Paleogene-recent East African Rift System (EARS) at ca. 45 Ma. Thus, the Turkana Depression is crucial to understanding the inception of intracontinental rifting. However, the precise chronology of early rift-basin formation in Turkana is poorly constrained. We present apatite fission-track and (U-Th-Sm)/He thermochronology data from basement rocks from the margins of the north-south-trending Lokichar Basin that constrain the onset of rift-related cooling. Thermal history modeling of these data documents pronounced Eocene to Miocene denudational cooling of the basinbounding Lokichar fault footwall. These results, along with ~7 km of Paleogene to middle Miocene syn-rift strata preserved in the Lokichar fault hanging wall, suggest that formation of the Lokichar Basin began as early as ca. 45-40 Ma. Preexisting lithospheric heterogeneities inherited from earlier Mesozoic rifting and Eocene plume magmatism likely facilitated the broadly concurrent nucleation of strain in the Turkana Depression, up to ~15 m.y. earlier than EARS initiation elsewhere. Late Paleogene extension in the Lokichar Basin and other parts of Turkana significantly predate the Miocene creation of pronounced plume-related topography in East Africa, suggesting that other mechanism(s), such as far-field stresses or mantle basal drag, likely played a critical role during EARS inception. |
| format |
Journal |
| author |
Samuel C. Boone Barry P. Kohn Andrew J.W. Gleadow Christopher K. Morley Christian Seiler David A. Foster |
| author_facet |
Samuel C. Boone Barry P. Kohn Andrew J.W. Gleadow Christopher K. Morley Christian Seiler David A. Foster |
| author_sort |
Samuel C. Boone |
| title |
Birth of the East African Rift System: Nucleation of magmatism and strain in the Turkana Depression |
| title_short |
Birth of the East African Rift System: Nucleation of magmatism and strain in the Turkana Depression |
| title_full |
Birth of the East African Rift System: Nucleation of magmatism and strain in the Turkana Depression |
| title_fullStr |
Birth of the East African Rift System: Nucleation of magmatism and strain in the Turkana Depression |
| title_full_unstemmed |
Birth of the East African Rift System: Nucleation of magmatism and strain in the Turkana Depression |
| title_sort |
birth of the east african rift system: nucleation of magmatism and strain in the turkana depression |
| publishDate |
2019 |
| url |
https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85072010108&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/66650 |
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1681426494780342272 |