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1.
V. A. Marinov S. V. Meledina O. S. Dzyuba O. S. Urman O. V. Yazikova V. A. Luchinina A. G. Zamirailova A. N. Fomin 《Stratigraphy and Geological Correlation》2006,14(4):418-432
Paleontological study of Upper Jurassic and Lower Cretaceous sediments recovered by boreholes in the Agan-Vakh and Nadym-Vengapur interfluves clarified environments of their deposition. As is shown, influx of siliciclastic material to central areas of the West Siberian sea basin varied through time. Taxonomic composition and ecological structure of nektonic and benthic fossil assemblages are analyzed and considered in terms of environmental factors such as hydrodynamics, aeration, temperature, and salinity of seawater. 相似文献
2.
V. A. Pavlenov Ya. B. Radziminovich S. G. Arzhannikov A. S. Gladkov I. A. Dzyuba 《Journal of Volcanology and Seismology》2007,1(6):421-428
The present study is devoted to the assessment of shaking intensities due to the September 17, 2003, earthquake occurring in the Khoito-Gol basin (southwestern flank of the Baikal Rift System). The instrumental and macroseismic data used here were acquired during an investigation into the impact of this seismic event. The highest intensity of shaking, VI, was recorded at Khoito-Gol, the human settlement that was the nearest to the instrumental epicenter. A nonuniform distribution of intensity was found for different directions from the epicenter. A scatter of as much as two intensity units was recorded at one settlement. 相似文献
3.
It has been shown that the maximum of climate variations in the northern subpolar zone observable over the last three decades
conforms to the maximal methane and carbonic acid content in the atmosphere of the north latitudes. Statistical analysis of
long-term variations of ground air temperature, gas composition of atmosphere, depth of seasonal melting, temperature, and
distribution area of permafrost ground in the subpolar zone of the north hemisphere testifies to significant directional changes
of basic cryolitozone characteristics. Analysis of the latitudinal distribution of flux density of anthropogenic and natural
methane showed that the greatest methane emission is in the subpolar zone of the northern hemisphere, where anthropogenic
impact is minimal. In view of the estimations of methane emission during thawing of permafrost grounds, a new hypothesis explaining
the present climate conditions in northern latitudes has been proposed. The planetary maximum of climate warming in the arctic
zone is substantially caused by methane and carbonic acid outbreaks from thawing permafrost grounds, which, in turn, is an
additional reason for the greenhouse effect. This effect is materially analogous to the influence of technogenic discharge
of greenhouse gases in the temperate zone. 相似文献
4.
A. V. Dzyuba 《Russian Meteorology and Hydrology》2009,34(5):274-284
Statistical analysis is performed of long-term changes in surface air temperature in the western part of the subpolar zone, in the greenhouse gas content of the atmosphere, and in atmospheric pressure oscillations in the North Atlantic atmospheric centers of action. Stability of the statistics for the next decades is considered with allowance for a possible increase in the greenhouse gas concentration in the atmosphere of the north polar zone. A statistical formalization is carried out, and a possible mechanism is described of teleconnection between low-frequency oscillations of the pressure field in the North Atlantic and climatic parameters in the northwestern part of the Atlantic-Eurasian region. 相似文献
5.
The Triassic succession of Bjørnøya (200 m) comprises the Lower Triassic Urd Formation (65 m) of the Sassendalen Group, and the Middle and Upper Triassic Skuld Formation (135 m) of the Kapp Toscana Group. These units are separated by a condensed '.'Middle Triassic sequence represented by a phosphatic remainé conglomerate (0.2m).
The Urd Formation consists of grey to dark grey shales with yellow weathering dolomitic beds and nodules. Palynology indicates the oldest beds to be Diencrian; ammonoid faunas in the middle and upper part of the formation arc of Smithian age. The organic content (c. 1 %) includes kerogen of land and marine origin, reflecting a shallow marine depositional environment.
The Skuld Formation is dominated by grey shales with red weathering siderite nodules. There are minor coarsening upwards sequences; the highest bed exposed is a 20 m thick, very fine-grained sandstone. Palynomorphs indicate a late Ladinian age for the lower part of the formation, and macrofossils and palynomorphs indicate Ladinian to Carnian ages for the upper part. Sedimentary structures, a sparse marine fauna and microplankton indicate deposition in a shallow marine environment. The organic residues contain dominantly terrestrially derived kerogen. 相似文献
The Urd Formation consists of grey to dark grey shales with yellow weathering dolomitic beds and nodules. Palynology indicates the oldest beds to be Diencrian; ammonoid faunas in the middle and upper part of the formation arc of Smithian age. The organic content (c. 1 %) includes kerogen of land and marine origin, reflecting a shallow marine depositional environment.
The Skuld Formation is dominated by grey shales with red weathering siderite nodules. There are minor coarsening upwards sequences; the highest bed exposed is a 20 m thick, very fine-grained sandstone. Palynomorphs indicate a late Ladinian age for the lower part of the formation, and macrofossils and palynomorphs indicate Ladinian to Carnian ages for the upper part. Sedimentary structures, a sparse marine fauna and microplankton indicate deposition in a shallow marine environment. The organic residues contain dominantly terrestrially derived kerogen. 相似文献
6.
The formation conditions and the dynamics of groundwater in the upper hydrodynamic zone of the northern coast of European Russia, which discharge directly into the Barents and White seas, are analyzed. The normal annual water, ionic, and thermal runoff and the anticipated submarine groundwater runoff into the Arctic Ocean are evaluated. The stability of marine arctic methane-hydrates under the observed and anticipated climate changes is analyzed. A physical substantiation is given to the concept of climate-determined increase in submarine groundwater discharge as a possible cause of the intensification of arctic methane hydrate decomposition, which does not contradict empirical data. 相似文献
7.
In this paper groundwater formation conditions in the upper hydrodynamic zone of the northern coast of European part of Russia are considered. This groundwater discharges directly into the Barents and White Seas. The values of submarine discharge from European Russia into Arctic Seas, by passing river network, are estimated. Estimates of subsurface dissolved-solids discharge are given. Specific and integral characteristics of submarine discharge are analyzed. The major regularities in the formation and distribution of submarine discharge into Seas of the Arctic Ocean are described. 相似文献
8.
V.Yu. Bragin O.S. Dzyuba A.Yu. Kazansky B.N. Shurygin 《Russian Geology and Geophysics》2013,54(3):335-348
The results of this study were used to identify a reversed polarity magnetozone, referred to as M17r, in Berriasian sections of the Nordvik Peninsula (northern East Siberia) within the normal polarity magnetozone (M18n) from previous studies. The new magnetozone embraces the Volgian–Ryazanian boundary (Chetaites chetae/C. sibiricus zonal boundary). It was also found that the former magnetozone M17r at Nordvik, which includes the C. sibiricus/Hectoroceras kochi zonal boundary should correspond to magnetozone M16r. Using magnetostratigraphic and biostratigraphic criteria proves that the Boreal C. sibiricus Zone is correlated with at least the major part of the Tethyan Tirnovella occitanica Zone, and the Boreal H. kochi Zone is correlated with the lower part of the Malbosiceras paramimounum Subzone of the Tethyan Fauriella boissieri Zone. 相似文献
9.
A. V. Dzyuba A. V. Eliseev I. I. Mokhov 《Izvestiya Atmospheric and Oceanic Physics》2012,48(3):332-342
The temperature dependence of the methane oxidation rate is estimated. The methane lifetime in the atmosphere is shown to decrease by about 3% from 1900 to 2005. The overwhelming fraction of the total methane content is removed from the atmosphere at intratropical latitudes during the daytime. The methane oxidation rate growth due to the temperature increase in the troposphere generates negative feedback in the methane cycle and, accordingly, climatic feedback with the same sign. According to the estimates performed, the halt in methane concentration growth in the atmosphere observed in recent years can be associated with a decrease in the lifetime of methane in the atmosphere. According to the results of numerical experiments with the climatic model of the Institute of Atmospheric Physics, Russian Academy of Sciences (IAP RAS), the climatic effect of negative feedback of the tropospheric temperature and the methane lifetime in the atmosphere is not large and is comparable with the climatic forcing of the methane emission growth from bog ecosystems. 相似文献
10.
ATLE MØRK GEIR ELVEBAKK ARNE W. FORSBERG MARK W. HOUNSLOW. HANS ARNE NAKREM. JORUNN OS VIGRAN WOLFGANG WEITSCHAT 《Polar research》1999,18(1):51-82
The Vikinghøgda Formation (250 m) is defined with a stratotype in Deltadalen-Vikinghøgda in central Spitsbergen. The Vikinghøgda Formation replaces the Vardebukta and Sticky Keep Formations of Buchan et al. (1965) and the lower part of the Barentsøya Formation of Lock et al. (1978) as extended geographically by Mørk, Knarud et al. (1982) in central Spitsbergen, Barentsøya and Edgeøya. The formation consists of three member: the Deltadalen Member (composed of mudstones with sandstones and siltstones), the Lusitaniadalen Member (dominated by mudstones with thin siltstone beds and some limestone concretions) and the Vendomdalen Member (composed of dark shales with dolomite interbeds and nodules). The Lusitaniadalen and Vendomdalen members replace the former Sticky Keep Formation/ Member in the siirne areu. The Vikinghøda Formation can be followed through central and eastern Spitsbergen to Barentøya and Edgeøya and includes all sediments between the chert-rich Kapp Starostin Formation (Permian) and the organic-rich shales of the Botneheia Formation (Middle Triassic). The subdivision into three members is also reflected in the organic carbon content and palynofacies. Upwards. each succeeding member becomes more distal, organic-rich and oil-prone than the one below.
The Vikinghøda Formation is well-dated by six ammonoid zones. although the transitional beds between the Deltadalen and Lusitaniadalen members lack age diagnostic macrofossils. Corresponding palynozonation and magnetustratigraphy have also been determined. The overall stratigraphical development correlates well with other key Triassic areas in the Arctic, although intervals in the late Dienerian and early Smithian may be condensed or missing. 相似文献
The Vikinghøda Formation is well-dated by six ammonoid zones. although the transitional beds between the Deltadalen and Lusitaniadalen members lack age diagnostic macrofossils. Corresponding palynozonation and magnetustratigraphy have also been determined. The overall stratigraphical development correlates well with other key Triassic areas in the Arctic, although intervals in the late Dienerian and early Smithian may be condensed or missing. 相似文献