Melt Percolation, Melt-Rock Reaction and Oxygen Fugacity in Supra-Subduction Zone Mantle and Lower Crust from the Leka Ophiolite Complex, Norway
Journal article
Authors | O’Driscoll, Brian, Leuthold, Julien, Lenaz, Davide, Skogby, Henrik, Day, James, M. and Adetunji, Jacob |
---|---|
Abstract | Samples of peridotites and pyroxenites from the mantle and lower crustal sections of the Leka Ophiolite Complex (LOC; Norway) are examined to investigate the effects of melt-rock reaction and oxygen fugacity variations in the sub-arc oceanic lithosphere. The LOC is considered to represent supra-subduction zone (SSZ) oceanic lithosphere, but also preserves evidence of pre-SSZ magmatic processes. Here we combine field and microstructural observations with mineral chemical and structural analyses of different minerals from the major lithologies of the LOC. Wehrlite and websterite bodies in both the mantle and lower crust contain clinopyroxene likely formed at a pre-SSZ stage, characterised by high Al, high Cr, low Mg crystal cores. These clinopyroxenes also exhibit low Al, low Cr, high Mg outer rims and intracrystalline dissolution surfaces, indicative of reactive melt percolation during intrusion and disruption of these lithologies by later, SSZ-related, dunite-forming magmas. Chromian-spinel compositional variations correlate with lithology; dunite-chromitite Cr-spinels are characterised by relatively uniform and high TiO2 and Al2O3, indicating formation by melt-rock reaction associated with SSZ processes. Harzburgite Cr-spinel compositions are more variable but preserve a relatively high Al2O3, low TiO2 endmember that may reflect crystallisation in a pre-SSZ oceanic spreading centre setting. An important finding of this study is that the LOC potentially preserves the petrological signature of a transition between oceanic spreading centre processes and subsequent SSZ magmatism. Single crystal Cr-spinel Fe3+/ΣFe ratios calculated on the basis of stoichiometry (from electron microprobe [EPMA] and crystal structural [X-ray diffraction; XRD] measurements) correlate variably with those calculated by point-source (single crystal) Mössbauer spectroscopy. Average sample EPMA Fe3+/ΣFe ratios overestimate or underestimate the Mössbauer-derived values for harzburgites, and always overestimate the Mössbauer Fe3+/ΣFe ratios for dunites and chromitites. The highest Fe3+/ΣFe ratios, irrespective of method of measurement, are therefore generally associated with dunites and chromitites, and yield calculated log(fO2)FMQ values of up to ~ + 1.8. While this lends support to the formation of the dunites and chromitites during SSZ-related melt percolation in the lower part of the LOC, it also suggests that these melts were not highly oxidised, compared to typical arc basalts (fO2FMQ of > + 2). This may in turn reflect the early (forearc) stage of subduction zone activity preserved by the LOC and implies that some of the arc tholeiitic and boninitic lava compositions preserved in the upper portion of the ophiolite are not genetically related to the mantle and lower crustal rocks, against which they exhibit tectonic contacts. Our new data also have implications for the use of ophiolite chromitites as recorders of mantle oxidation state through time; a global comparison suggests that the Fe3+/ΣFe signatures of ophiolite chromitites are likely to have more to do with local environmental petrogenetic conditions in sub-arc systems than large length-scale mantle chemical evolution |
Keywords | Leka Ophiolite; Melt rock reaction; Melt rock percolation; Oceanic mantle and lower crust; Mantle oxygen fugacity |
Year | 2021 |
Journal | Journal of Petrology |
Publisher | Oxford University Press |
ISSN | 1460-2415 |
Digital Object Identifier (DOI) | https://doi.org/10.1093/petrology/egab078 |
Web address (URL) | http://hdl.handle.net/10545/626334 |
hdl:10545/626334 | |
Publication dates | 17 Sep 2021 |
Publication process dates | |
Deposited | 04 Mar 2022, 16:14 |
Accepted | 13 Sep 2021 |
Contributors | University of Manchester, Institute of Geochemistry and Petrology, Zürich, Switzerland, Università degli Studi di Trieste, Trieste, Italy, Swedish Museum of Natural History, Stockholm, Sweden, University of California San Diego, La Jolla, CA, USA and University of Derby |
File | File Access Level Open |
https://repository.derby.ac.uk/item/923w4/melt-percolation-melt-rock-reaction-and-oxygen-fugacity-in-supra-subduction-zone-mantle-and-lower-crust-from-the-leka-ophiolite-complex-norway
Download files
31
total views0
total downloads2
views this month0
downloads this month