scholarly journals Permanent Gas Emission from the Seyakha Crater of Gas Blowout, Yamal Peninsula, Russian Arctic

Energies ◽  
2021 ◽  
Vol 14 (17) ◽  
pp. 5345
Author(s):  
Vasily Bogoyavlensky ◽  
Igor Bogoyavlensky ◽  
Roman Nikonov ◽  
Vladimir Yakushev ◽  
Viacheslav Sevastyanov
Keyword(s):  
Western Siberia ◽  
Remote Sensing Data ◽  
Energy Resources ◽  
The Arctic ◽  
Yamal Peninsula ◽  
Russian Arctic ◽  
Gas Emission ◽  
Gas Emissions ◽  
High Level ◽  
The Yamal Peninsula

The article is devoted to the four-year (2017–2020) monitoring of gas emissions from the bottom of the Seyakha Crater, located in the central part of the Yamal Peninsula (north of Western Siberia). The crater was formed on 28 June 2017 due to a powerful blowout, self-ignition and explosion of gas (mainly methane) at the site of a heaving mound in the river channel. On the basis of a comprehensive analysis of expeditionary geological and geophysical data (a set of geophysical equipment, including echo sounders and GPR was used) and remote sensing data (from space and with the use of UAVs), the continuing nature of the gas emissions from the bottom of the crater was proven. It was revealed that the area of gas seeps in 2019 and 2020 increased by about 10 times compared to 2017 and 2018. Gas in the cryolithosphere of the Arctic exists in free and hydrated states, has a predominantly methane composition, whereas this methane is of a biochemical, thermogenic and/or mixed type. It was concluded that the cryolithosphere of Yamal has a high level of gas saturation and is an almost inexhaustible unconventional source of energy resources for the serving of local needs.

Accessory and Ore Mineralization of Schists from the Basement of the Yamal Peninsula (Zapadno-Yarotinsky Area, Western Siberia)

2021 ◽  
pp. 49-55
Author(s):  
Yuriy V. Erokhin ◽  
Kirill S. Ivanov ◽  
Anatoliy V. Zakharov ◽  
Vera V. Khiller
Keyword(s):  
Western Siberia ◽  
The Arctic ◽  
Yamal Peninsula ◽  
Metamorphic Rocks ◽  
The West ◽  
Temperature Range ◽  
Ore Minerals ◽  
Ore Mineralization ◽  
Native Silver ◽  
The Yamal Peninsula

The results of studying the mineralogy of metamorphic schists from the Pre-Jurassic base of the Arctic part of the West Siberian plate are presented. The accessory and ore mineralization of schists from the Zapadno-Yarotinsky license area located in the southern part of the Yamal Peninsula is studied. The schists was uncovered by the Zapadno-Yarotinskaya No. 300 well at a depth of 2762 m. Above the section, the metamorphic rocks are overlain by a young Meso-Cenozoic cover. The schists are mainly composed of quartz, plagioclase (albite), carbonates (dolomite and siderite), mica (muscovite) and chlorite (donbassite). The discovered accessory and ore minerals in the metamorphic schists of the Zapadno-Yarotinsky area can be divided into two groups. The first group includes minerals that were formed during the metamorphism of schists, or were preserved as detrital matter. These minerals include zircon, fluorapatite, and rutile as the most stable compounds. The remaining mineralization (pyrite, sphalerite, chalcopyrite, cubanite, galena, cobaltite, barite, xenotime-(Y), goyazite, synchysite-(Nd), native silver and copper) is clearly secondary and was formed as a result of superimposed metasomatic processes. Judging from the described mineralogy, the schists underwent changes as a result of superimposed propyllitization. The temperature range of this process is determined by the formation of cubanite in association with chalcopyrite at a temperature of 200-210 оС.

scholarly journals Formation of Gas-Emission Craters in Northern West Siberia: Shallow Controls

Geosciences ◽  
2021 ◽  
Vol 11 (9) ◽  
pp. 393
Author(s):  
Evgeny Mikhailovich Chuvilin ◽  
Natalia Sergeevna Sokolova ◽  
Boris Aleksandrovich Bukhanov ◽  
Dinara Anvarovna Davletshina ◽  
Mikhail Yurievich Spasennykh
Keyword(s):  
Climate Warming ◽  
Cold Water ◽  
West Siberia ◽  
The Arctic ◽  
Yamal Peninsula ◽  
Geological Data ◽  
Formation Model ◽  
Gas Emission ◽  
Ground Ice ◽  
The Yamal Peninsula

Gas-emission craters discovered in northern West Siberia may arise under a specific combination of shallow and deep-seated permafrost conditions. A formation model for such craters is suggested based on cryological and geological data from the Yamal Peninsula, where shallow permafrost encloses thick ground ice and lenses of intra- and subpermafrost saline cold water (cryopegs). Additionally, the permafrost in the area is highly saturated with gas and stores large accumulations of hydrocarbons that release gas-water fluids rising to the surface through faulted and fractured crusts. Gas emission craters in the Arctic can form in the presence of gas-filled cavities in ground ice caused by climate warming, rich sources of gas that can migrate and accumulate under pressure in the cavities, intrapermafrost gas-water fluids that circulate more rapidly in degrading permafrost, or weak permafrost caps over gas pools.

scholarly journals The appearance of Yamal on the map of Russia. Isaac Massa and the searches for north searoute to China

2019 ◽  
Vol 25 (2) ◽  
pp. 370-382
Author(s):  
Mikhail Novikov ◽  
Marina Kharlamova
Keyword(s):  
Western Siberia ◽  
The Arctic ◽  
Yamal Peninsula ◽  
Northern Coast ◽  
The West ◽  
Foreign Agent ◽  
Initial Stage ◽  
Direct Support ◽  
Selection Of ◽  
The Yamal Peninsula

Dutch cartographer and merchant Isaac Massa’s activity in Muscovy at the beginning of the XVII century was studied. The information about the origin of the map of the northern coast of Russia, the Yamal Peninsula and the Gulf of Ob in the first place was analysed. In Russian historical publications Massa is considered to be a foreign agent who took a hand in the transfer of confidential information on the cartography of Muscovy to the Netherlands. At the same time, the selection of historical facts and documents and the action logic of Massa suggests otherwise. Massa was certainly one of the first who participated in creating the latest maps of the Arctic Ocean coast and the general map of Russia, and he did it with the direct support of influential Russian circles and in the interests of Russia. We assume that, аt the initial stage of his activity in Russia, Massa represented the interests of the first clan of merchants, the Stroganovs, wishing to include Siberia into the sphere of their direct influence. The material for the preparation of the drawing of Yamal, which was the first image of the peninsula on a map, was probably obtained from the Arkhangelsk coast-dwellers (pomors), who went by sea to trade in their trading station Mangazeya. The assumption that Massa secretly gained access to the so-called Book of the Great Drawing (Kniga Bol’shomu chertezhu) does not stand up to criticism. Massa left Muscovy in the spring of 1609, quite legally taking with him the latest materials on the cartography of Russia and with the task to publish them in the west as soon as possible. Published maps, the actual has consolidated the priority of Russia for the possession of the coast of Western Siberia.

scholarly journals Earth decontamination in the Arctic: remote and field studies of the Seyakha accident gas emission on the Yamal Peninsula

2019 ◽  
pp. 88-105 ◽  
Author(s):  
Vasily I. Bogoyavlensky ◽  
◽  
Oleg S. Sizov ◽  
Aleksandr V. Mazharov ◽  
Igor V. Bogoyavlensky ◽  
...  
Keyword(s):  
Field Studies ◽  
The Arctic ◽  
Yamal Peninsula ◽  
Gas Emission ◽  
The Yamal Peninsula

scholarly journals Heat flow and presence of oil and gas (the Yamal peninsula, Tomsk region)

Georesursy ◽  
2019 ◽  
Vol 21 (3) ◽  
pp. 125-135
Author(s):  
Valery I. Isaev ◽  
Galina A. Lobova ◽  
Alexander N. Fomin ◽  
Valery I. Bulatov ◽  
Stanislav G. Kuzmenkov ◽  
...  
Keyword(s):  
Heat Flow ◽  
Western Siberia ◽  
Oil And Gas ◽  
Sedimentary Cover ◽  
The Arctic ◽  
Yamal Peninsula ◽  
Flow Density ◽  
Positive Anomaly ◽  
Tomsk Region ◽  
History Of

The possibilities of Geothermy as a geophysical method are studied to solve forecast and prospecting problems of Petroleum Geology of the Arctic regions and the Paleozoic of Western Siberia. Deep heat flow of Yamal fields, whose oil and gas potential is associated with the Jurassic-Cretaceous formations, and the fields of Tomsk Region, whose geological section contents deposits in the Paleozoic, is studied. The method of paleotemperature modeling was used to calculate the heat flow density from the base of a sedimentary section (by solving the inverse problem of Geothermy). The schematization and mapping of the heat flow were performed, taking into account experimental determinations of the parameter. Besides, the correlation of heat flow features with the localization of deposits was revealed. The conceptual and factual basis of research includes the tectonosedimentary history of sedimentary cover, the Mesozoic-Cenozoic climatic temperature course and the history of cryogenic processes, as well as lithologic and stratigraphic description of the section, results of well testing, thermometry and vitrinite reflectivity data of 20 deep wells of Yamal and 37 wells of Ostanino group of fields of Tomsk region. It was stated that 80 % of known Yamal deposits correlate with anomalous features of the heat flow. Bovanenkovskoe and Arkticheskoe fields are located in positive anomaly zones. 75 % of fields of Ostanino group relate to anomalous features of the heat flow. It is shown that the fields, which are characterized by existence of commercial deposits in the Paleozoic, are associated with the bright gradient zone of the heat flow. The forecast of commercial inflows in the Paleozoic for Pindzhinskoe, Mirnoe and Rybalnoe fields is given. The correlation between the intensity of naftidogenesis and the lateral inhomogeneity of the deep heat flow is characterized as a probable fundamental pattern for Western Siberia.

scholarly journals Off-the-Grid Life of Arctic Nomads: Social Generating of Electricity in the Northern Yamal

2019 ◽  
pp. 1356-1373 ◽  
Author(s):  
Dmitry V. Arzyutov
Keyword(s):  
Social Life ◽  
Field Data ◽  
The Arctic ◽  
Yamal Peninsula ◽  
Historical Documents ◽  
Cultural Meanings ◽  
History Of ◽  
Ethnographic Analysis ◽  
The Yamal Peninsula

This article deals with the ethnographic analysis of the history and social life of electricity among Nenets in the Yamal Peninsula. Based on historical documents and field data the author reconstructs a history of the electrification of the northern part of the peninsula. This work also includes the reflections on social and cultural meanings of electricity among Nenets in and out the tundra. Through these historical and current dynamics, the author suggests analysing the life of electricity in off-the-grid settings through the lens of transnational technological entanglements in the Arctic

scholarly journals Methane Content and Emission in the Permafrost Landscapes of Western Yamal, Russian Arctic

Geosciences ◽  
2020 ◽  
Vol 10 (10) ◽  
pp. 412
Author(s):  
Gleb E. Oblogov ◽  
Alexander A. Vasiliev ◽  
Irina D. Streletskaya ◽  
Natalia A. Zadorozhnaya ◽  
Anna O. Kuznetsova ◽  
...  
Keyword(s):  
Active Layer ◽  
Methane Content ◽  
Yamal Peninsula ◽  
Peat Bogs ◽  
Western Coast ◽  
Permafrost Degradation ◽  
Russian Arctic ◽  
Landscape Map ◽  
The Yamal Peninsula ◽  
Lake Basins

We present the results of studies of the methane content in soils of the active layer and underlying permafrost, as well as data on the emission of methane into the atmosphere in the dominant landscapes of typical tundra of the western coast of the Yamal Peninsula. A detailed landscape map of the study area was compiled, the dominant types of landscapes were determined, and vegetation cover was described. We determined that a high methane content is characteristic of the wet landscapes: peat bogs within the floodplains, water tracks, and lake basins. Average values of the methane content in the active layer for such landscapes varied from 2.4 to 3.5 mL (CH4)/kg, with a maximum of 9.0 mL (CH4)/kg. The distribution of methane in studied sections is characterized by an increase in its concentration with depth. This confirms the diffuse mechanism of methane transport in the active layer and emission of methane into the atmosphere. The transition zone of the upper permafrost contains 2.5–5-times more methane than the active layer and may become a significant source of methane during the anticipated permafrost degradation. Significant fluxes of methane into the atmosphere of 2.6 mg (CH4) * m−2 * h−1 are characteristic of the flooded landscapes of peat bogs, water tracks, and lake basins, which occupy approximately 45% of the typical tundra area.

scholarly journals Late-Spring and Summertime Tropospheric Ozone and NO<sub>2</sub> in Western Siberia and the Russian Arctic: Regional Model Evaluation and Sensitivities

2020 ◽  
Author(s):  
Thomas Thorp ◽  
Stephen R. Arnold ◽  
Richard J. Pope ◽  
Dominic V. Spracklen ◽  
Luke Conibear ◽  
...  
Keyword(s):  
Dry Deposition ◽  
Tropospheric Ozone ◽  
Western Siberia ◽  
Surface Ozone ◽  
Late Spring ◽  
The Arctic ◽  
Transport Sector ◽  
Anthropogenic Emissions ◽  
Negative Bias ◽  
Russian Arctic

Abstract. We use a regional chemistry transport model (WRF-Chem) in conjunction with surface observations of tropospheric ozone and Ozone Monitoring Instrument (OMI) satellite retrievals of tropospheric column NO2 to evaluate processes controlling the regional distribution of tropospheric ozone over Western Siberia for late-spring and summer in 2011. This region hosts a range of anthropogenic and natural ozone precursor sources, and serves as a gateway for near-surface transport of Eurasian pollution to the Arctic. However, there is a severe lack of in-situ observations to constrain tropospheric ozone sources and sinks in the region. We show widespread negative bias in WRF-Chem tropospheric column NO2 when compared to OMI satellite observations from May – August, which is reduced when using ECLIPSE v5a emissions (FMB= -0.82 to -0.73) compared with the EDGAR-HTAP-2 emissions data (FMB= -0.80 to -0.70). Despite the large negative bias, the spatial correlations between model and observed NO2 columns suggest that the spatial pattern of NOx sources in the region is well represented. Based on ECLIPSE v5a emissions, we assess the influence of the two dominant anthropogenic emission sectors (transport and energy) and vegetation fires on surface NOx and ozone over Siberia and the Russian Arctic. Our results suggest regional ozone is more sensitive to anthropogenic emissions, particularly from the transport sector, and the contribution from fire emissions maximises in June and is largely confined to latitudes south of 60° N. Large contributions to surface ozone from energy emissions are simulated in April north of 60° N, due to emissions associated with oil and gas extraction. Ozone dry deposition fluxes from the model simulations show that the dominant ozone dry deposition sink in the region is to forest, averaging 6.0 Tg of ozone per month, peaking at 9.1 Tg of ozone deposition during June. The impact of fires on ozone dry deposition within the domain is small compared to anthropogenic emissions, and is negligible north of 60° N. Overall, our results suggest that surface ozone in the region is controlled by an interplay between seasonality in atmospheric transport patterns, vegetation dry deposition, and a dominance of transport and energy sector emissions.

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