How to identify oceanic crust—Evidence for a complex break-up in the Mozambique Channel, off East Africa

The identification of oceanic crust at rifted margins plays a crucial role in academic research understanding rifting mechanisms and the architecture of continent–ocean boundaries, and is also important for hydrocarbon exploration extending into deeper water. In this paper, we provide a workflow for...

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Bibliographic Details
Published in:Tectonophysics 2016-12, Vol.693, p.436-452
Main Authors: Klimke, Jennifer, Franke, Dieter, Gaedicke, Christoph, Schreckenberger, Bernd, Schnabel, Michael, Stollhofen, Harald, Rose, Jens, Chaheire, Mohamed
Format: Article
Language:English
Subjects:
Architecture
Davie Ridge
Deformation
Deformation mechanisms
Exploration
Fault lines
Faults
Geological faults
Geophysics
Graben
Mozambique Channel
Oblique margin
Oceanic crust
Offshore
Profiles
Reflection seismic data
Rifting
Sediments
Seismic analysis
Seismic engineering
Seismic profiles
Studies
Transform faults
Unconformity
Workflow
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Summary:The identification of oceanic crust at rifted margins plays a crucial role in academic research understanding rifting mechanisms and the architecture of continent–ocean boundaries, and is also important for hydrocarbon exploration extending into deeper water. In this paper, we provide a workflow for the determination of the crustal nature in the Mozambique Channel, east of Davie Ridge, by presenting a compilation of several geophysical attributes of oceanic crust at divergent margins. Previous reconstructions locate the Davie Ridge at the trace of a transform fault, along which Madagascar drifted to the south during the breakup of Gondwana. This implies a sharp transition from continental to oceanic crust seaward of Davie Ridge. Using new multichannel seismic profiles offshore northern Mozambique, we are able to identify distinct portions of stretched basement east of Davie Ridge. Two phases of deformation affecting the basement are observed, with the initial phase resulting in the formation of rotated fault blocks bounded by listric faults. Half-grabens are filled with wedge-shaped, syn-extensional sediments overlain by a prominent unconformity that northward merges with the top of highly reflective, mildly deformed basement, interpreted as oceanic crust. The second phase of deformation is associated with wrench faulting and probably correlates with the southward drift of Madagascar, which implies that the preceding phase affected basement generated or modified prior to the opening of the West Somali Basin. We conclude that the basement is unlikely to consist of normal oceanic crust and suggest that the first extensional phase corresponds to rifting between Madagascar and Africa. We find evidence for a wide area affected by strike–slip deformation, in contrast to the earlier proposed major single transform fault in the vicinity of Davie Ridge and suggest that the Mozambique Channel area to the north of Madagascar may be classified as an oblique rather than sheared margin. •New marine geophysical data covering the Davie Ridge in the Mozambique Channel•Evidence for the absence of normal oceanic crust seaward of Davie Ridge•A wide area has been affected by strike–slip deformation.•The Mozambique Channel area may be classified as oblique margin.
ISSN:0040-1951
1879-3266
DOI:10.1016/j.tecto.2015.10.012