Koopmann H, Franke D, Schreckenberger B, Schulz H, Hartwig A, Stollhofen H, Di Primio R (2013)
Publication Language: English
Publication Type: Journal article, Original article
Publication year: 2013
Publisher: Elsevier
Book Volume: 50
Pages Range: 22-39
DOI: 10.1016/j.marpetgeo.2013.10.016
Regional seismic reflection and potential field data document the South Atlantic’s break-up history,
between 39S and 19S, from the Early Cretaceous onwards. Previous maps of distribution of volcanics
along the margin showed volcanics along the whole African margin based on extrapolation of data. Based
on previously unpublished marine geophysical data, we found the southernmost 460 km long margin
segment to be lacking huge volumes of break-up related volcanic effusives. Northwards, break-up was
accompanied by the emplacement of huge volumes of volcanic material, prominently featured in seismic
sections as huge wedge-shaped seaward dipping reflectors (SDRs). Detailed mapping of offsets (left- and
right-stepping) and variations in structural character of the volcanics reveal the segmentation along and
the break-up history of the margin. Several superimposed SDR sequences, suggesting episodicity of
volcanic emplacement (divided by periods of erosion and sedimentation), are distinct along southerly
lines, losing prominence northwards.
A main outcome of our study is that this passive margin is not continuously of the volcanic type and
that the change from a non-volcanic to a volcanic margin occurs abruptly.
We define four distinct First-order Segments along the 2400 km section of the southwestern African
margin covered by our seismic data. From south to north these First-order Segments are: Magma-poor
Segment I; Segment II with enormous SDRs volumes; decreasing SDRs volumes in Segment III; Segment
IV again with enormous volcanic output, likely influenced by Walvis Ridge volcanism.
Most important is that there is no systematic increase in the volumes of the effusives towards the
Tristan da Cunha hot-spot. Rather there is an alternating pattern in the SDRs’ volumes and widths.
The boundary between the volcanic and magma-poor margin segments in the southernmost study
area is sharp (10s of km), which we propose is reflected in magnetic anomaly data as well. We suggest
that this variability along the margin is mainly due to a change in stretching/rifting character from
oblique during the early stages of breakup to conventional seafloor spreading from Chron M4 (c. 130 Ma)
onwards.
APA:
Koopmann, H., Franke, D., Schreckenberger, B., Schulz, H., Hartwig, A., Stollhofen, H., & Di Primio, R. (2013). Segmentation and volcano-tectonic characteristics along the SW African continental margin, South Atlantic, as derived from multichannel seismic and potential field data. Marine and Petroleum Geology, 50, 22-39. https://doi.org/10.1016/j.marpetgeo.2013.10.016
MLA:
Koopmann, Hannes, et al. "Segmentation and volcano-tectonic characteristics along the SW African continental margin, South Atlantic, as derived from multichannel seismic and potential field data." Marine and Petroleum Geology 50 (2013): 22-39.
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