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Das Entstehen und Auseinanderbrechen von Kontinenten : mit Geophysik auf den Spuren geodynamischer Prozesse im südlichen Afrika (2014)

Weckmann, U. ; Kütter, S. ; Ritter, O. ; [et al.]

In: System Erde

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Publication Date: 2020-02-12

Description: Southern Africa in particular is a very special natural laboratory for a journey through the Earth’s geo-archive. We can study tectonic processes on Early Earth as well as continental collision and breakup; and we learn how and why the African continent was blessed with mineral resources, such as diamonds or gold. With the beginning of the 20th century, geoscientists have started to set up observatories in South Africa to record earthquakes (since 1910) or conduct magnetic national surveys (Beattie, 1909). In Africa these geo-scientific pioneers found an ideal environment to study different tectonic units such as Cratons – ancient nuclei of continents, younger fold and orogenic belts as well as sediment basins and to investigate and classify their physical properties. The physical parameters applied were (i) elastic properties of rocks, which can be resolved using seismic and seismological observations and which allow to infer density information of rock formations, (ii) electrical conductivities which can be sensed using geo-electric, magnetotelluric (MT) und magnetometer-array measurements, (iii) magnetic properties, i.e. the ability of rocks to get magnetized, und (iv) the density of rocks which can directly be measured using gravity. The geophysics groups of the German Research Centre for Geosciences (GFZ) have been very active in South Africa since 2004 and have studies imprints of past continental collisions in the Earth crust and mantle along several traverses.

Language: German

Type: info:eu-repo/semantics/article

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Seismisches Abbilden von Krustenstrukturen (2016)

Bauer, K. ; Ryberg, T. ; Braeuer, B. ; [et al.]

In: System Erde

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Publication Date: 2020-02-12

Description: Deep seismic sounding provides important information on the seismic structure of the crust. Seismic experiments make use of controlled sources (explosions, Vibroseis) or natural sources (earthquakes, ambient noise), or combinations of both types. Seismic velocities are derived from modelling or tomographic inversion of diving waves and refractions. Particularly the combined interpretation of compressional and shear velocities allows for insight into the lithological structure of the crust. Seismic reflectivity is derived from imaging of waves reflected at geological boundaries. Typical patterns of crustal reflectivity are observed for specific tectonic settings. Case studies are shown from two studies at plate boundary systems. (1) The old plate boundary at the Namibian margin was formed by Cretaceous continental rifting and its interplay with the activities of the Tristan da Cunha mantle plume. Traces of intensive magmatic overprinting of the crust at the landfall region of Walvis Ridge can be seen in the derived velocity model and also in the reflectivity image. (2) The Dead Sea transform marks the active boundary between the African and Arabian plates. The Dead Sea basin was formed by pull-apart in response to step-over of the fault system. Results from tomography reveal a deep asymmetric basin structure. An anomalous body was found under the basin, between 13 and 18 km depth, which is interpreted as pre-basin sediments. Our results are supported by the distribution of earthquakes. The results provide new constraints for the modeling of plate boundary processes.

Language: German

Type: info:eu-repo/semantics/article

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Manteldynamik und das Aufbrechen von Gondwana (2014)

Steinberger, B. ; Gassmöller, R. ; Trumbull, R. ; [et al.]

In: System Erde

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Publication Date: 2020-02-12

Description: Southern Africa was part of Gondwanaland until the Mesozoic, when this supercontinent broke up into fragments that evolved into today’s southern continents. In particular, around 140 Ma, rifting started between southern Africa and South America, followed by the opening of the South Atlantic after ~130 Ma. What caused this breakup is a subject of ongoing research. In particular, it is unclear whether, and to what extent, plumes from the deep mantle are a cause for, or at least assisted in the breakup, or whether, on the contrary, the flood basalt provinces attributed to plumes are a consequence of breakup. The Paraná and Etendeka flood basalts erupted ~132 Ma ago at a location nearly vertically above the margin of the African “Large Low Shear Velocity Province” in the lowermost mantle, indicative of a deep mantle plume. Plate reconstructions show that the plume was initially beneath the South American plate, but close to the breakup location, such that plume material could flow to and erupt at the developing spreading ridge. The plume was overridden by the ridge at ~90 Ma and has been under the African plate ever since. Plume-lithosphere interaction can also be addressed through active seismic surveys on land, and in combination with petrologic and geochemical studies of the flood basalts and dyke swarms, this work has led to many important new insights. In particular, it has been shown that mantle temperatures beneath Etendeka province were about 150 °C higher than the global mid-oceanic ridge average, thus further supporting the mantle plume hypothesis.

Language: German

Type: info:eu-repo/semantics/article

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