Home – Home – Jornals – Russian Geology and Geophysics 2018 number Неопубликованное

Located in the north-west of the Murmansk Region, the sulphide Cu-Ni ore deposits were discovered in 1930s. Nowadays they provide approximately 8-10% of the nickel mining in Russia. The deposits are spatially associated with the serpentinite massifs, which have long been pertained to either the ophiolitic complex or basalt magma differentiates. The magma is regionally represented by the wide-spread fields of pillow lavas and gabbro-diabase sills. The ultramafic ferropicritic volcanics, which alternate in cross-section with lavas and basaltic tuffs, were discovered in 1970s. Initially the ore-bearing massifs were intrusions composed by peridotites (wehrlites), clinopyroxenites, and gabbro, which were tectonically metamorphosed during the Svecofennian tectonic genesis. Basing on petrological, geochemical, and isotopic research, scientists have proved that ferropicritic volcanics and ore-bearing intrusions are genetically bonded. The paper concerns the processes of differentiation of all the ferropicritic magma facies, i.e., intrusive (ore and ore-free intrusions), volcanogenic (massive and pillow lavas, stratified flows, sills), and dike ones (dike bodies, cross-cutting intrusions, and dike swarms in the Archean setting). Their relations, period and sequence of formation have been revealed. We also discuss the role that the processes of contamination and assimilation of the Archean basement rocks and hosting sulphide carbonaceous schists have played in sulphide ore formation.