Results of lithospheric studies from long-range profiles in Siberia

Abstract

Several long-range seismic profiles, obtained during the last ten years in Siberia, show the complicated lithospheric structure of the Siberian platforms. The three component observations, conducted at distances up to 3000 km, made it possible to obtain information on P- and S-velocities in the crust, on P-velocity and Q-factor for the upper mantle, and on the seismic boundaries responsible for reflected, refracted and converted waves down to a depth of 400–700 km. The crustal models are typical of old platforms of Eurasia: the average thickness of 40 km, three layers with P-velocities 6.2, 6.5, 7.0 km/s and thicknesses of 10–15 km are distinguished. The depth to the M discontinuity varies from 45–50 km beneath the old Tunguss depression, to 35–40 km beneath the younger Vilyui basin. The most complicated Moho structure is observed in the boundary between the West Siberian and the Siberian platforms. A strong inhomogeneity of P-velocity models was revealed for the upper mantle. The horizontal inhomogeneities are more larger in the uppermost mantle to depths of 80–100 km, where P-velocities vary from 8.0–8.2 km/s beneath the young West Siberian plate to 8.4–8.6 km/s beneath some blocks of the Siberian craton. The fine vertical inhomogeneity was studied with reflections correlated after computer processing of seismograms. They outlined several low-velocity layers 20–50 km thick. The layers were characterized by low Q as well. Intensive waves were recorded from the transition zone between the upper and lower mantle. The top of the zone is nearly horizontal in the area; its depth is 400 ± 25 km. The bottom of the zone lies at about 700 km.