Textural, morphological and compositional varieties of modern arc sulfide melts: a case study of the Tolbachik volcano, Kamchatka

Magma unmixing into separate sulfide and silicate melts is a key process in the formation ofmagmatic sulfide ore deposits. Sulfide inclusions in olivine preserve the original chemicalcomposition of the segregated sulfide melt, whereas the phase compositions of the solidified sulfide droplets and the...

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Bibliographic Details
Published in:Lithos
Main Authors: Zelenski, M, Kamenetsky, VS, Nekrylov, N, Abersteiner, AB, Ehrig, K, Khanin, D
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier BV 2018
Subjects:
sulfide globule
arc basalt
textural diversity
crystallization
exsolution
oxidation
dissolution
Tolbachik
Kamchatka
Online Access:https://eprints.utas.edu.au/27870/
https://doi.org/10.1016/j.lithos.2018.07.029
Description
Summary:Magma unmixing into separate sulfide and silicate melts is a key process in the formation ofmagmatic sulfide ore deposits. Sulfide inclusions in olivine preserve the original chemicalcomposition of the segregated sulfide melt, whereas the phase compositions of the solidified sulfide droplets and their textures record the final stages of sulfide evolution. Sulfide globules hosted in olivine phenocrysts of magnesian basalts from the Tolbachik volcano (Kamchatka) display a variety of textures ranging from homogeneous to fine-grained to coarse-grained and lamellar. Porous textures and textures associated with the oxidation and dissolution of sulfides were identified as separate categories. The outer surfaces of sulfides vary significantly in shape, which includes normal spherical or elliptical globules, gravitationally layered inclusions, thin sulfide foils and concave deformed sulfides in contact with fluid bubbles. The estimated cooling rate of olivine phenocrysts responsible for observed crystallization textures varies by five orders of magnitude. The Fe:Ni:Cu ratio also exerts an influence on the resulting texture, whereas the size of the globules does not have any significant effect. The morphology and textural patterns of individual grains indicates that fine-grained textures resulted from the rapid breakdown of a homogeneous solid phase, which the sulfide melt solidified into during extremely rapid quenching. The presence of large or abundant small pores in sulfides, along with channels at the globule periphery indicates the separation of an appreciable amount of dissolved fluid from the sulfide melt during crystallization. Sulfides in the form of thin foils and planar swarms in healed cracks indicate cyclic pressure changes in the olivine environment, which resulted in phenocrysts rupturing and healing. The sulfide mineralogy is represented by high-temperature sulfides MSS (monosulfide solid solution) and ISS (intermediate solid solution), as well as pyrrhotitepentlandite-chalcopyrite-cubanite-bornite-magnetite assemblages, which formed at lower temperatures.

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