The South Okhotsk deep-sea basin is a morphologically-simple, fault-bounded basin located in the Kuril back-arc region.
The structure of the crust is distinguished by three principal units: layer 1 (Vp ∼- 2–4 km/sec) is a layer of sediments 3–4 km thick. Layer 2 (Vp ∼- 4.5–5 km/sec) has a thickness of 0.5–1.5 km. Layer 3 (Vp ∼- 6.5–7 km/sec) is about 5 km thick, and has a probable basaltic to gabbroic composition. To a depth of 30 km, the upper mantle beneath the basin consists of alternating layers having velocities of 8.0 and 7.0 km/sec (Starshinova, 1980), which may be indicative of localized partial melting. Heat flow values are 2–2.5 times higher than normal.
Sedimentation rates of 5–15 m/Ma for a thick, “transparent” sedimentary unit probably consisting of clays and argillites, and immediately overlying basement, suggest that sedimentation in the basin began in pre-Cretaceous time. There is no evidence of a ridge or rift in the basin, and the overlying sediments are undeformed. It is thus difficult to relate the formation of the South Okhotsk basin to subduction of the Pacific plates along its eastern margin.

Thia monograph provides a systematic catalogue description of all 97 known submarine volcanoes and aeamounts in the Kurile island arc, using materials of the R/V "Vulkanolog" six voyages. Interpretations of their morphostructural features are based on echo sounding, seismic reflection profiling, and characteristics of the magnetic field. Compositions have been determined for 80 of the volcanoes, including petrographic and geochemical data, using dredged material.
During concurrent study of subaerial and submarine volcanoes regularities in their spatial-structural distribution, transverse and longitudinal petrogeochemical, mineral, and isotopic zoning, and xenolith distribution in the lavas have been recognized. Volcanic activity is distributed in the frontal and rear-arc zones. These data are used to develop a model for magma generation with two zones of magma generation related to two levels of volatile separation from the subducting lithospheric plate.

Приводятся новые данные о строении подводных вулканов, гайотов и вулканических островов западной части Тихого океана, полученные в рамках интеграции ученых различной специализации академической, вузовской и отраслевой науки в области наук о Земле при проведении комплексных геолого-геофизических исследований в 2015-2016 гг.

The authors have studied the flat-topped Berg submarine-volcano. The volcano likely used to emerge above sea level in its past history, but suffered the top attrition subsequently. The edifice is composed as by dense rocks with prevailing andesibasalts and basalts, so by mouldy volcanic rock formations. The most magnetized lava flows effused near the top on the western slope after the volcano had sunk. These flows are possibly composed by basalts and are the youngest within the edifice.