A.V. Sapegina1,2, A.L. Perchuk1,2, V.S. Shatsky3,4 1Lomonosov Moscow State University, Moscow, Russia 2D.S. Korzhinsky Institute of Experimental Mineralogy, Russian Academy of Sciences, Moscow, Russia 3V.S. Sobolev Institute of Geology and Mineralogy, Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia 4Vinogradov Institute of Geochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, Russia
Keywords: Granulite, crustal xenolith, symplectite, kelyphite, metasomatism, continental crust, Precambrian
The paper presents data on a granulite xenolith from the Zarnitsa kimberlite pipe (Yakutia, Russia), which stores a record of two metasomatic events in addition to the main stage of metamorphism. The granulitic mineral assemblage consists of garnet, clinopyroxene, and plagioclase as main phases. The granulite xenolith contains kyanite-clinopyroxene and later orthopyroxene-plagioclase symplectites. Kyanite-clinopyroxene symplectites appear as short veins inside or between grains of rock-forming minerals. Orthopyroxene-plagioclase symplectites form kelyphite rims in all garnets or occur as veins in garnet grains. The P-T conditions for granulite in the lower crust reconstructed by Perple_X phase equilibrium modeling are 700-750 ℃ and 1.2-1.3 GPa. According to TWQ thermodynamic calculations, the kyanite-clinopyroxene symplectites were produced by Si-metasomatism at invariable Р-Т parameters. The growth of orthopyroxene-plagioclase symplectites after garnet was maintained by Ca inputs upon heating and decompression (200 ℃ temperature increase and 0.6 GPa pressure decrease) while the xenolith was transported by ascending kimberlite melt.
L.Z. Reznitsky, E.V. Sklyarov, I.G. Barash
a:2:{s:4:"TEXT";s:99:"Institute of the Earth’s Crust, Siberian Branch of the Russian Academy of Sciences, Irkutsk, Russia";s:4:"TYPE";s:4:"text";}
Keywords: Cr-V spinels, metamorphism, magmatism, mantle minerals, Sludyanka metamorphic complex, South Baikal area
The paper presents data on two groups of magnesian Cr-V spinel occurring as rock-forming minerals in various types of Cr-V bearing rocks of the Sludyanka metamorphic complex (South Baikal area, Siberia, Russia): (i) low-Al magnesiochromite-magnesiocoulsonite spinels and (ii) Al spinels varying from V-bearing aluminous magnesiochromite and Al-Cr coulsonite to spinel proper with minor contents of Cr and V, and with complex zoning patterns. Spinels in the Sludyanka rocks are also present as iron-magnesian accessories, among which high-Cr varieties are compositionally similar to mantle-derived spinel from igneous rocks and to inclusions in diamonds. Comparison of formation conditions for mantle spinels in igneous lithologies and spinel phases in metamorphic rocks shows that their mineral chemistry is mainly controlled by the bulk composition of the igneous and sedimentary protoliths, respectively. Detrital spinel may be a false indicator poorly applicable to paleogeodynamic reconstructions and diamond potential evaluation.
The work is devoted to the analysis of the geological structure and assessment of the oil and gas potential of the Anabar-Khatanga and Lena-Anabar oil and gas areas (OGA) of the Lena-Tunguska oil and gas province, which are located on the continental margin of the Siberian platform, on the coast of the Laptev Sea. Administratively, the study area includes the northeastern regions of the Krasnoyarsk Territory, the northwest of the Republic of Sakha (Yakutia), the offshore of the Khatanga Bay and the southern, transit part of the Laptev Sea (Khatanga-Lena interfluve). Based on integrated interpretation of geological and geophysical materials, we present regional-zonal models of the geology of the upper Proterozoic-Phanerozoic deposits of the Arctic regions of the Siberian platform, sets of seismogeological sections, structural and parametric maps, results of structural-tectonic analysis, potential estimates of oil-producing formations; analysis of reservoir properties and types of oil and gas promising objects, and a quantitative assessment of hydrocarbon resources. The study area is of interest in terms of oil and gas potential. In this region, the Central Olgin field was discovered, numerous bitumen, oil and gas shows were noted. A series of oil-producing formations enriched in organic matter occurs in the sedimentary cover, and in the sections of all sedimentary complexes, high-capacity reservoirs are distinguished. There are prerequisites for the formation of both anticlinal and complex oil and gas promising objects. The prospects for the oil and gas potential of the Anabar-Khatanga OGA are mainly associated with Permian terrigenous deposits and Cambrian-Devonian carbonates. In the Lena-Anabar OGA, all upper Proterozoic-Paleozoic sedimentary complexes from the Riphean to the Permian level are of interest in terms of oil and gas potential.
N.V. Sennikov, O.T. Obut, E.V. Lykova, A.V. Timokhin, T.A. Shcherbanenko
Trofimuk Institute of Petroleum Geology and Geophysics, Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia
Keywords: Upper Ordovician, lithology, stratigraphy, paleogeography, Gorny Altai
New and revised previous data based on detailed description of sections have provided better constraints on fauna taxonomy, lithology, and stratigraphy, as well as on biostratigraphic ages of sediments. The lithology and stratigraphy of several key Upper Ordovician sections in the northern Gorny Altai area show that the local units of Sandbian and Katian Savelieva and Bulukhta formations can be used as reference for the regional Ordovician division. It is suggested to include a newly distinguished Bulukhta facies zone, an area of Late Ordovician coarse clastic deposition, into the mapped Ordovician deposits of Gorny Altai. According to paleogeographic reconstructions, the deposition occurred in a large sea gulf surrounded with elevated landmasses exposed to erosion.
V.M. Ovtchinnikov, O.A. Usoltseva
Institute of Geospheres Dynamics, Russian Academy of Sciences, Moscow, Russia
Keywords: Seismic waves, differential rotation, inner core, correlation analysis
The wavefield structure is studied from explosions within the Mururoa atoll based on seismic records from four stations (BCAO, KAAO, GRFO, BRVK) located at distances 152.1º, 152.4º, 143.6º, 141.7º, respectively. The cross-correlation analysis was used as the main tool of the similarity of explosion seismograms conducted at different times. It has been concluded that changes in correlation similarity in time are reconcilable with the hypothesis of differential rotation of the Earth’s inner core in the period from 1977 to 1991. The evidence of structural anomalies not only in the inner core but also in the outer core has been demonstrated.
D.E. Edemsky1, V.E. Tumskoy2, I.V. Prokopovich1 1Pushkov Institute of Terrestrial Magnetism, Ionosphere, and Radio Wave Propagation, Russian Academy of Sciences, Moscow, Russia 2Melnikov Permafrost Institute, Siberian Branch of the Russian Academy of Sciences, Yakutsk, Russia
Keywords: Polygonal microrelief, polygonal wedge structures, ground penetrating radar, ground penetrating radar probing, Taimyr Peninsula, Kotelny Island
Ground penetrating radar method which was applied to study distribution and occurrence of polygonal wedge ice along with other structural features in the near-surface layers of the permafrost section on the western coast of the Taymyr Peninsula and Kotelny Island. The polygonal microrelief in the region under study is at a descending stage of development and is mainly placed in sand-gravel deposits and silts with rare interlayers of light gray sands. The ground penetrating radar (GPR) data were analyzed and interpreted by modeling of the polygonal wedge ice structures in gprMax - a software that simulates electromagnetic wave propagation. The effect of the seasonally thawed layer on the measurement results was assessed, and the results of ground penetrating radar sounding of the polygonal microrelief were interpreted. The ground penetrating radar studies performed in this work indicate that unmelted lower ends of ice wedges preserved under pseudomorphs can be observed in some spots. Repeated wedge structures of higher generation, which do not appear on the surface, have been identified. The propagation velocity of electromagnetic waves in the studied sediments was determined.
I.A. Vasilenko, O.V. Naumenko
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: HITRAN2020 database, variational calculation, intensity of vibrational-rotational line
An expert assessment of the accuracy codes for the intensities of rovibrational transitions of water vapor in the spectral range 2500-6500 cm-1 of the HITRAN2020 database has been carried out. From comparison with experimental data, the normalization coefficients of the variational calculation by Conway E.K., Gordon I.E., Kyuberis A.A., Polyansky O.L., Tennyson J., Zobov N.F. // J. Quant. Spectrosc. Radiat. Transfer. 2020. V. 241. P. 106711 were determined; for the absorption bands (001)-(000), (020)-(000), (011)-(000), and (110)-(000), they were 1.010, 1.007, 1.013, and 1.030, respectively. Using variational calculations and modeling based on the effective Hamiltonian approach, the analysis of experimental data from the HITRAN2020 database has been conducted, revealing less accurate values. Based on these results, an adjusted list of H216O absorption lines in the range 2500-6500 cm-1 has been constructed, which can be useful for natural experiments.
V.V. Nosov, V.P. Lukin, E.V. Nosov, A.V. Torgaev
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: turbulence, astroclimate, stratification, turbulent scale, turbulence coherence, image quality
The results of long-term measurements of the atmospheric turbulence characteristics in the Sayan Solar Observatory (SSO) in summer 2023 are presented. It is confirmed that the cause of the prevailing direction of local winds appearing in SSO is temperature mountain-valley gradient between the Sayan Mountains north of the SSO observatory and the valley to the south. A smaller level of the mean intensity of atmospheric turbulence in SSO compared to the turbulence over flat terrain in middle latitudes is confirmed. The presence of coherent turbulence in the SSO area is shown, at which the quality of images obtained by optical instruments is improved. New data are obtained for the turbulent scales of temperature and wind speed depending on the atmospheric stratification.
N.V. Dudorova, B.D. Belan
V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science, Tomsk, Russia
Keywords: PM, particulate matter in the atmosphere, air pollution, health, hospitalization, respiratory system, epidemic, virus, COVID-19
The impact of PM2.5 in urban air on the frequency of hospitalizations for respiratory diseases is studied based on data on the atmospheric PM2.5 concentration from the TOR station (Tomsk) and on the number of hospitalizations of Tomsk residents for respiratory diseases and coronavirus infection (ICD-10 codes J00-J99, U07.1, and U07.2) from the register of emergency calls over a twelve-year period (2010-2022). It is shown that the level of air pollution with PM2.5 and the duration of pollution episodes almost do not affect the number of hospitalizations for respiratory diseases in the absence of infectious agents, which increase the number of such hospitalizations. However, in the cases where infectious agents, including SARS-CoV-2, are present in urban air, which promotes an increase in the number of hospitalizations for respiratory diseases, fine aerosols as carriers of the infectious agents contribute to their faster transfer and infection of more city residents compared to the cases of clean air. During such episodes, relatively low PM2.5 concentrations (30-50 μg/m3) can several times increase the number of hospitalizations for respiratory diseases, including coronavirus infection, even in such a fairly clean city as Tomsk, ignoring the rise of the number of hospitalizations due to seasonal morbidity or epidemic.