Ultra-refractory mantle within oceanic plateau: petrology of the spinel harzburgites from Lac Michele, Kerguelen Archipelago

Wasilewski, B.; Doucet, L.S.; Moine, B.; Beunon, H.; Delpech, G.; Mattielli, N.; Debaille, V.; Delacour, A.; Grégoire, M.; Guillaume, D.; Cottin, J.-Y.

doi:/10.1016/j.lithos.2016.12.010

Ultra-refractory mantle within oceanic plateau: petrology of the spinel harzburgites from Lac Michele, Kerguelen Archipelago

Wasilewski, B.; Doucet, L.S.; Moine, B.; Beunon, H.; Delpech, G.; Mattielli, N.; Debaille, V.; Delacour, A.; Grégoire, M.; Guillaume, D.; Cottin, J.-Y. (2017). Ultra-refractory mantle within oceanic plateau: petrology of the spinel harzburgites from Lac Michele, Kerguelen Archipelago. Lithos 272-273: 336-349. https://dx.doi.org/10.1016/j.lithos.2016.12.010

In: Lithos. Elsevier: Amsterdam. ISSN 0024-4937; e-ISSN 1872-6143, meer

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Marien/Kust

Author keywords

Oceanic plateau; Kerguelen; Spinel harzburgites; Xenoliths;Ultra-refractory

Auteurs		Top
Wasilewski, B. Doucet, L.S., meer Moine, B. Beunon, H., meer	Delpech, G. Mattielli, N., meer Debaille, V., meer Delacour, A.	Grégoire, M. Guillaume, D. Cottin, J.-Y.

Abstract

The study presents major and trace element compositions of whole-rocks and minerals of 24 spinel harzburgite xenoliths from the Lac Michele locality in the northern part of the Kerguelen Archipelago (South Indian Ocean). The samples are modally homogeneous and large enough to provide representative whole-rock samples. Their Mg# are high (0.91 to 0.93) and they have 16-29 wt.% orthopyroxene (opx) and low clinopyroxene contents (0.1-2.8 wt.%). They display a wide range of serpentinisation, which result in LOI contents ranging from 0 to 3.5 wt.%. The spinel-bearing harzburgites from Lac Michele are the most refractory peridotites identified so far among peridotite xenoliths available on the Kerguelen Archipelago and within the oceanic lithosphere. By contrast with most of the peridotite xenoliths from Kerguelen, they have been more preserved from post formation processes such as metasomatic processes. The major and trace element compositions of the least serpentinised spinel harzburgites indicate an origin by similar to 30% of polybaric decompression fractional melting between 5GPa and <= 1 GPa. Thus, the spinel harzburgites from Lac Michele, situated at the top of the Kerguelen lithospheric mantle, are residues of melting that took place over a broad range of depth and mostly in the garnet stability field. Our results, in comparison with published data on mantle xenoliths worldwide, show that spinel harzburgites from Lac Michele have major and modal compositions that fall in the range of cratonic peridotites rather than abyssal peridotites, oceanic island peridotites, subduction zones peridotites and off-cratonic peridotites. This indicates (i) they formed in similar condition as for the ancient continental lithospheric mantle or (ii) they are fragment of ancient continental lithospheric mantle incorporated in the Kerguelen plateau.

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