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

Based on an analysis of the hypsometric positions of lavas of different ages in the Iya-Uda volcanic field (~8 and ~4 Ma), it has been established that the main phase of intense relief dissection and activation of block movements along the Main Sayan Fault within the Biryusa block occurred in the late Miocene. Geochemical characteristics of the lavas, such as high values of the FCKANTMS parameter (0.46–0.77) [Yang et al., 2019] and the positions of figurative points on the CaO–MgO and TiO₂/Al₂O₃–SiO₂ diagrams, indicate melting of a garnet-pyroxenite mantle source rather than a typical peridotite mantle. The trace element composition of the rocks is consistent with intraplate basalts such as OIB. Variations in the Th/Nb and TiO₂/Yb ratios indicate that for lavas aged 4 Ma, the role of garnet in the melting zone increases, while for magmas aged 8 Ma, the contribution of the lithospheric mantle becomes more significant. The genesis of the enriched pyroxenite component in the lithosphere of the Biryusa block is most likely related to tectonic convergence processes during Late Cenozoic rifting, which led to a change in the volume of the crust and the involvement of lower crustal material into the mantle of the Siberian Craton. Thus, volcanism in the Iya-Uda volcanic field is the result of melting of heterogeneous and enriched lithospheric mantle.