Your search keyword '"Glorie, Stijn"' showing total 3 results

1. The thermo-tectonic evolution of the southern Congo Craton margin as determined from apatite and muscovite thermochronology.

Author

Alessio, Brandon L., Glorie, Stijn, Collins, Alan S., Jourdan, Fred, Jepson, Gilby, Nixon, Angus, Siegfried, Pete R., and Clark, Chris

Subjects

*APATITE, *SETTLING basins, *SUTURE zones (Structural geology), *BIOLOGICAL evolution, *RIFTS (Geology), *MUSCOVITE, *GEOLOGIC faults, GONDWANA (Continent)

Abstract

The Southern Irumide Belt (SIB) of Zambia consists of predominantly Mesoproterozoic terranes that record a pervasive tectono-metamorphic overprint from collision between the Congo and Kalahari cratons in the final stages of Gondwana amalgamation. This study applies multi-method thermochronology to samples throughout southern Zambia to constrain the post-collisional, Phanerozoic thermo-tectonic evolution of the region. U-Pb apatite and 40Ar/39Ar muscovite data are used to constrain the cooling history of the region following Congo–Kalahari collision, and reveal ages of c. 550–450 Ma. Variations in the recorded cooling ages are interpreted to relate to localised post-tectonic magmatism and the proximity of analysed samples to the Congo–Kalahari suture. Apatite fission track data are used to constrain the low-temperature thermo-tectonic evolution of the region and identify mean central ages of c. 320–300, 210–200 and 120–110 Ma. Thermal modelling of these samples identifies a number of thermal events occurring in the region throughout the Phanerozoic. Carboniferous to Permian–Triassic heating is suggested to relate to the development of Karoo rift basins found throughout central Africa and constrain the timing of sedimentation in the basin. Permian to Jurassic cooling is identified in a number of samples, reflecting exhumation as a result of the Mauritanian–Variscan and Gondwanide orogenies. Subsequent cooling of the majority of samples occurs from the Cretaceous and persists until present, reflecting exhumation in response to larger scale rifting associated with the break-up of Gondwana. Each model reveals a later phase of enhanced cooling beginning at c. 30 Ma that, if not an artefact of modelling, corresponds to the development of the East African Rift System. The obtained thermochronological data elucidate the previously unconstrained thermal evolution of the SIB, and provides a refined regional framework for constraining the tectonic history of central Africa throughout the Phanerozoic. • First thermochronological data available for the Southern Irumide Belt of Zambia • Medium temperature thermochronology constrains Neoproterozoic to Ordovician cooling. • Thermal modelling identifies a number of thermal events during the Phanerozoic. • Carboniferous to Permian–Triassic heating relates to Karoo sedimentation. • Onset of cooling from the Cretaceous relates to Gondwana break-up. [ABSTRACT FROM AUTHOR]

Published

2019

2. Age, origin and palaeogeography of the Southern Irumide Belt, Zambia.

Author

Alessio, Brandon L., Collins, Alan S., Clark, Chris, Glorie, Stijn, Siegfried, Pete R., and Taylor, Richard

Subjects

PALEOGEOGRAPHY, ZIRCON, POPULATION aging, BASEMENTS

Abstract

The Southern Irumide Belt (SIB) records over one and a half billion years (c. 2000-500 Ma) of tectonic evolution along the southern Congo Craton margin. To understand this evolution we present U-Pb, Lu-Hf, REE zircon and structural data for the SIB of Zambia, which are used to investigate its formation, evolution and relationship to the Irumide Belt of the southern Congo Craton. Orthogneiss in the Chewore-Rufunsa and Chipata terranes yields ages between c. 2040 and 2000 Ma. This implies the presence of Paleoproterozoic basement throughout the SIB, similar to basement rocks within the Irumide Belt. Detrital zircon data from the Chipata Terrane yield age populations and eHf(t) values that are equivalent to those for samples from other SIB terranes and the Irumide Belt. The similarities between basement units and overlying sedimentary sequences in the SIB and Irumide Belt indicate that the SIB formed an integral part of the southern Congo margin since the Paleoproterozoic, rather than accreting to this margin during the late Mesoproterozoic. Subsequent structural deformation in this region occurred as two phases, a north-south-directed compression during the late Neoproterozoic to Cambrian, and a weaker east-west-directed compression during the Phanerozoic. [ABSTRACT FROM AUTHOR]

Published

2019

3. Identifying the tectono-metamorphic overprints of a Gondwana forming collision: a structural and thermobarometric transect of the Southern Irumide and Zambezi belts, Zambia.

Author

Alessio, Brandon, Collins, Alan, Glorie, Stijn, Clark, Chris, Kelsey, David, and Taylor, Richard

Subjects

GONDWANA (Continent)

Published

2018