Abstract
Sulfides in upper mantle lherzolite xenoliths from Cretaceous alkaline-ultramafic rocks in the Jetty Peninsula (East Antarctica) were studied for their major and trace-element compositions using SEM and LA-ICP-MS applied in situ. Modal abundance of sulfides is the lowest in Cpx-poor lherzolites ≤ Spl-Grt lherzolites << Cpx-rich lherzolites. Most sulfides are either interstitial (i-type) or inclusions in rock-forming minerals (e-type) with minor sulfide phases mostly present in metasomatic veinlets and carbonate-silicate interstitial patches (m-type). The main sulfide assemblage is pentlandite + chalcopyrite ± pyrrhotite; minor sulfides are polydymite, millerite, violarite, siegenite, and monosulfide solution (mss). Sulfide assemblages in the xenolith matrix are a product of the subsolidus re-equilibration of primary mss at temperatures below ≤300 °C. Platinum group elements (PGE) abundances suggest that most e-type sulfides are the residues of melting processes and that the i-type sulfides are crystallization products of sulfide-bearing fluids/liquids. The m-type sulfides might have resulted from low-temperature metasomatism by percolating sulfide-carbonate-silicate fluids/melts. The PGE in sulfide record processes are related to partial melting in mantle and intramantle melt migration. Most other trace elements initially partitioned into interstitial sulfide liquid and later metasomatically re-enriched residual sulfides overprinting their primary signatures. The extent of element partitioning into sulfide liquids depends on P, T, fO2, and host peridotite composition.
Highlights
Small stock-like Late Jurassic to Early Cretaceous intrusions of alkaline-ultramafic rocks in the Jetty Peninsula (PrinceCharles Mountains, East Antarctica; Figure 1) contain abundant xenoliths representing samples of the subcontinental lithospheric mantle (SCLM) beneath the region [1,2,3,4,5,6]
We grouped the sulsulfides in silicate minerals and textural spinel (e-type) occurring spherical fides into enclosed three types according to their occurrence
Westner etdropletal. [27]): sullike grains; interstitial sulfides observed fides enclosed in silicate minerals and spinel (e-type) occurring as spherical droplet-like along the grain boundaries of the primary mineral assemblages appearing as droplet-like, grains; interstitial sulfides observed along irregular, or blocky grains (i-type); and sulfides associated with metasomatic veinlets and thesilicate-carbonate grain boundaries of the primary mineral assemblages appearing as droplet-like, irregpatches (m-type)
Summary
Small stock-like Late Jurassic to Early Cretaceous intrusions of alkaline-ultramafic rocks (mostly alkaline picrite and ultramafic lamprophyre) in the Jetty Peninsula A detailed description of the geology of the Prince Charles Mountains is given in [4,5,6,7]. The upper mantle xenoliths are mostly lherzolite with subordinate harzburgite, dunite and wherlite. The deepest-sampled upper mantle rocks (Spl-Grt lherzolite) yield ambient temperatures of 1040–1180 ◦ C with pressures up to 24 kbar that correspond to P-T conditions at depths of 75–80 km [2,4,12]
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