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Wadi Tayin Massif
Rhenium-osmium isotope systematics and platinum group element concentrations in oceanic crust
Selected Abstracts from ICGAPOM January 7–9, 2012, Sultanate of Oman
Symposium on ophiolite genesis and evolution of oceanic lithosphere
Re–Pt–Os Isotopic and Highly Siderophile Element Behavior in Oceanic and Continental Mantle Tectonites
New Caledonian carbon sinks at the onset of Antarctic glaciation
GEOLOGY OF OMAN CONFERENCE
Olivine—The Alteration Rock Star
87 million years of recorded history in Labrador: Birth, life, and sleep of the Kiglapait Intrusion
Fission-track thermochronology of the Oman Mountains continental windows, and current problems of tectonic interpretation
Investigation of the strength contrast at the Moho: A case study from the Oman Ophiolite
Subduction zone metamorphism during formation and emplacement of the Semail ophiolite in the Oman Mountains
Early Cretaceous Platform-Margin Configuration and Evolution in the Central Oman Mountains, Arabian Peninsula
Mineral and whole-rock geochemistry of high-Al podiform chromitites in the Fizh Massif of the Cretaceous Oman ophiolite: origin of hydrous N-MORB melts in a nascent forearc setting
Abstract Chromitite genesis in ophiolites is indirectly related to spreading rate, controlling mantle fertility and depth of melt crystallization. The most favourable conditions for chromitite concentrations are found in ophiolites generated at moderate spreading rates, where the world's largest chromitite deposits reside. A huge extension of the Oman Ophiolite permits an overview of chromitite distribution in relation to ridge tectonics, yielding constraints on ophiolitic chromitite genesis. Chromite genesis requires large instantaneous melt delivery, coupled with increasing oxygen fugacity produced by hydrous fluids. Chromitites in the Oman Ophiolite reside either in the Moho Transition Zone or at depth in the mantle, along wide shear zones. Both locations are domains of large melt transfer. Thinner crust on top of mantle diapirs and large shear zones limiting propagating segments represent particular domains where seawater circulation at depth is favoured. The thermal structure of these domains may explain the preferential formation of Al-rich versus Cr-rich chromites. A frozen equilibrium with parent mid-ocean ridge basalt (MORB) in the Al-rich chromites could result from rapid cooling of chromitites formed close to the ridge axis. Alternatively, equilibrium with primitive melt and a variable oxidation state is explained here by fluid circulation along the shear zones, active during transition from spreading to detachment.