The zircon evidence of temporally changing sediment transport—the NW Gondwana margin during Cambrian to Devonian time (Aoucert and Smara areas, Moroccan Sahara)

The zircon evidence of temporally changing sediment transport—the NW Gondwana margin during Cambrian to Devonian time (Aoucert and Smara areas, Moroccan Sahara)

Detrital zircon provenance studies are an established tool to develop palaeogeographic models, mostly based on zircon of siliciclastic rocks and isotope data. But zircon is more than just istopes and features well definable morphological characteristics. The latter may indicate single grain transpor...

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Bibliographic Details
Published in:International journal of earth sciences : Geologische Rundschau Vol. 106; no. 8; pp. 2747 - 2769
Main Authors: Gärtner, Andreas, Youbi, Nasrrddine, Villeneuve, Michel, Sagawe, Anja, Hofmann, Mandy, Mahmoudi, Abdelkader, Boumehdi, Moulay Ahmed, Linnemann, Ulf
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-11-2017
Springer Nature B.V
Springer Verlag
Subjects:
Age
Age composition
Allochthonous deposits
Archives & records
Cambrian
Carbonates
Cratons
Detritus
Devonian
Earth and Environmental Science
Earth Sciences
Geochemistry
Geological time
Geology
Geophysics/Geodesy
Grain
Heredity
Isotopes
Limestone
Mineral Resources
Ordovician
Original Paper
Palaeozoic
Paleozoic
Provenance
Rifting
Rock
Roundness
Sciences of the Universe
Sediment
Sediment transport
Sedimentary rocks
Sedimentology
Sediments
Structural Geology
Transport
Zircon
Zirconium
Morocco
West African Craton
U–Th–Pb geochronology
Palaeozoic sediment transport
Zircon morphology
Zircon from limestone
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Summary:Detrital zircon provenance studies are an established tool to develop palaeogeographic models, mostly based on zircon of siliciclastic rocks and isotope data. But zircon is more than just istopes and features well definable morphological characteristics. The latter may indicate single grain transport histories independent of the individual grade of concordance. This additional tool for palaeogeoraphic reconstructions was tested on zircon from siliciclastic and carbonate sedimentary rocks of Palaeozoic age from the Aoucert and Smara areas of the Souttoufides, while findings of zircon in limestone generally open new archives for sedimentary provenance analysis. The morphologies—length, width, roundness, grain surfaces—of 834 detrital zircons from sediments of allochthonous Cambrian, and (par-)autochthonous Ordovician, and Devonian units were studied, while 772 of them were analysed for their U–Th–Pb isotopes by LA-ICP-MS. Mesoproterozoic zircon contents of more than 10% in the Cambrian sediments exclude the West African Craton (WAC) as exclusive source area. Thus, at least one additional external source is suggested. This is likely the western Adrar Souttouf Massif with its significant Mesoproterozoic zircon inheritance, or comparable, yet unknown sources. Decreasing Mesoproterozoic zircon age populations in Ordovician sediments are thought to be linked to the rifting of the terranes in the course of the Rheic Ocean opening and a predominant supply of WAC detritus. The Devonian sediments likely contain reworked material from the Cambrian siliciclastics, which is shown by the zircon age distribution pattern and the zircon morphologies. Therefore, multiple shifts in the direction of sedimentary transport are indicated.
ISSN:1437-3254
1437-3262
DOI:10.1007/s00531-017-1457-x