Geomorphology of the Makgadikgadi Basin (Botswana): Insight Into the Propagation of the East African Rift System

The Southwestern Branch of the East African Rift System propagates through the Central and Southern African plateaus and ends in the Okavango Makgadikgadi Zambezi Basin. This basin hosts the Okavango Graben and the Eiseb Graben, considered as the terminus of the Southwestern Branch of the rift. To t...

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Bibliographic Details
Published in:Tectonics (Washington, D.C.) D.C.), 2024-02, Vol.43 (2), p.n/a
Main Authors: Gaudaré, Louis, Dauteuil, Olivier, Jolivet, Marc
Format: Article
Language:English
Subjects:
Deformation
Earth Sciences
East African Rift System
Escarpments
fault kinematics
Fault lines
Fault scarps
Fieldwork
Geomorphology
Graben
Kinematics
Paleolakes
Plateaus
Rift zones
rifting model
Sciences of the Universe
Shorelines
Tectonics
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Summary:The Southwestern Branch of the East African Rift System propagates through the Central and Southern African plateaus and ends in the Okavango Makgadikgadi Zambezi Basin. This basin hosts the Okavango Graben and the Eiseb Graben, considered as the terminus of the Southwestern Branch of the rift. To the southeast, the Makgadikgadi Basin is affected by a series of normal faults forming the Makgadikgadi Rift Zone (MRZ) which regional geodynamic significance remains unclear. Based on fieldwork and geomorphic analysis, we revisited the geomorphological features associated with paleolakes and the fault pattern within the Makgadikgadi Basin to better constrain the dynamics of the MRZ. Fault scarps and offsets along linear dunes show normal‐dip kinematics of faults, indicating a NW‐SE extension direction in the area. Furthermore, lacustrine shorelines in the basin are undeformed, proving that they post‐date the fault activity. The previously published ages of these shorelines demonstrate that the MRZ currently has a low tectonic activity. Integrated in the geodynamic framework of the region, these results suggest that present‐day deformation shifts toward the Okavango Graben north of the MRZ. We therefore propose a “zip‐opening” model to explain the propagation of the Southwestern Branch of the East African Rift System where the tip of the system progressively progresses southwestward, driven by motions of the continental plates. Key Points Geomorphic indicators better constrain kinematics and deformation relative chronology of the Makgadikgadi Rift Zone (MRZ), Botswana Low activity of the MRZ suggests that present‐day rift activity shifts from the Mid‐Zambezi Rift to the Okavango Graben We propose a NE‐SW propagation model of the East African Rift System at its southwestern terminus driven by plates relative motions
ISSN:0278-7407
1944-9194
DOI:10.1029/2023TC007988