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The timing of mantle and crustal events in South Namibia, as defined by SHRIMP-dating of zircon domains from a garnet peridotite xenolith of the Gibeon Kimberlite Province
JournalArticle (Originalarbeit in einer wissenschaftlichen Zeitschrift)
ID
2367548
Author(s)
Liati, Anthi; Franz, Leander; Gebauer, Dieter; Fanning, C. Mark
The timing of mantle and crustal events in South Namibia, as defined by SHRIMP-dating of zircon domains from a garnet peridotite xenolith of the Gibeon Kimberlite Province
Journal
Journal of African Earth Sciences
Volume
39
Number
3-5
Pages / Article-Number
147-157
Abstract
The Gibeon Kimberlite Province, southern Namibia, comprises numerous, 70-80 Ma old kimberlite pipes and dykes commonly containing abundant mantle and crustal xenoliths. We dated by SHRIMP II zircons from a garnet peridotite xenolith (Pipe Hanaus 1). The xenolith consists of garnet, orthopyroxene, clinopyroxene and, almost completely serpentinised, olivine. Crystallisation P T conditions range between ca. 3.3 GPa, 910degreesC (core composition of minerals) and ca. 3.5 GPa, 1000degreesC (rim composition). Fifteen ca. 150-40 mum long and 70-10 mum wide zircon crystals show more or less pronounced oscillatory zoning indicating precipitation in a melt or fluid. The SHRIMP results define three age groups: 1013 +/- 22 Ma, 751 +/- 28 Ma and 627 +/- 24 Ma. These ages are clearly correlated with large-scale crustal events in the broad area of Namibia, namely with the granulite-facies metamorphism during the Namaqua collisional event and post-collisional magmatism (ca. 1000-1100 Ma), with the intense magmatic activity and initial rifting stages in the Damara belt (ca. 730-770 Ma) and with the Early Pan-African orogeny, responsible for the formation of the Damara orogen (ca. 650 Ma), respectively. Formation of zircon in the xenoliths is related to the generation and migration of fluids/melts in the mantle via e.g. asthenospheric mantle upwelling or dehydration of subducting lithosphere, associated with crustal large-scale events.
