Micron-to-nanoscale investigation of Cu-Fe-Ni sulfide inclusions within laurite (Ru, Os)S2 from chromitites

This paper provides a top-down nanoscale analysis of Cu-Ni-Fe sulfide inclusions in laurite from the Taitao ophiolite (Chile) and the Kevitsa mafic-ultramafic igneous intrusion (Finland). High-resolution transmission electron microscopy (HRTEM) reveal that Cu-Ni-Fe sulfide inclusions are euhedral to...

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Published in:Mineralium deposita 2024-06
Main Authors: González-Jiménez, José María, González-Pérez, Igor, Plissart, Gaëlle, Ferreira, Amira R., Schettino, Erwin, Yesares, Lola, Schilling, Manuel E., Corgne, Alexandre, Gervilla, Fernando
Format: Article
Language:English
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Summary:This paper provides a top-down nanoscale analysis of Cu-Ni-Fe sulfide inclusions in laurite from the Taitao ophiolite (Chile) and the Kevitsa mafic-ultramafic igneous intrusion (Finland). High-resolution transmission electron microscopy (HRTEM) reveal that Cu-Ni-Fe sulfide inclusions are euhedral to (sub)-anhedral (i.e., droplet-like) and form single, biphasic or polyphasic grains, made up of different polymorphs, polytypes and polysomes even within a single sulfide crystal. Tetragonal (I4 $$\stackrel{-}{2}$$ d) and cubic (F $$\stackrel{-}{4}$$ 3m) chalcopyrite (CuFeS 2 ) host frequent fringes of bornite (Cu 5 FeS 4 ; cubic F $$\stackrel{-}{4}$$ 3m and/or orthorhombic Pbca) ± talnakhite (Cu 9 (Fe, Ni) 8 S 16 ; cubic I $$\stackrel{-}{4}$$ 3m) ± pyrrhotite (Fe 1 − x S; monoclinic C2/c polytype 4C and orthorhombic Cmca polytype 11C) ± pentlandite ((Ni, Fe) 9 S 8 ; cubic Fm3m). Pentlandite hosts fringes of pyrrhotite, bornite and/or talnakhite. Laurite and Cu-Fe-Ni sulfide inclusions display coherent, semi-coherent and incoherent crystallographic orientation relationships (COR), defined by perfect edge-to-edge matching, as well as slight (2–4º) to significant (45º) lattice misfit. These COR suggest diverse mechanisms of crystal growth of Cu-Fe-Ni sulfide melt mechanically trapped by growing laurite. Meanwhile, the mutual COR within the sulfide inclusions discloses: (1) Fe-Ni-S melt solidified into MSS re-equilibrated after cooling into pyrrhotite ± pentlandite, (2) Cu-Ni-Fe-S melts crystallized into the quaternary solid solution spanning the compositional range between heazlewoodite [(Ni, Fe) 3±x S 2 ] (Hz ss ) and ISS [(Cu 1±x , Fe 1±y )S 2 ]. Additionally, nanocrystallites (50–100 nm) of Pt-S and iridarsenite (IrAsS) accompanying the sulfide inclusions spotlight the segregation of PGE-rich sulfide and arsenide melt earlier and/or contemporarily to laurite crystallization from the silicate magmas. Cobaltite (CoAsS)-gersdorffite (NiAsS) epitaxially overgrown on laurite further supports the segregation of arsenide melts at early stages of chromitite formation.
ISSN:0026-4598
1432-1866
DOI:10.1007/s00126-024-01285-0