Carbonate sequence stratigraphy: application to the determination of play-models in the Upper Paleozoic succession of the Barents Sea, offshore northern Norway

The tracing of current-conducting channels of the Pechenga structure from Russian to Norwegian territory was the main task of this research. The study was carried out in the framework of the Soviet-Norwegian cooperation “Northern Region” to estimate the prospects for discovery of Cu-Ni deposits in northern Norway. In addition to previous publications of technical character, the emphasis here is on geological description. Experimental measurements have been performed in the field of the “Khibiny” dipole and with the use of DC electrical profiling. The “Khibiny” dipole consists of 160-ton aluminum cable flooded in the Barents Sea bays on opposite sides of the Sredny and Rybachy peninsulas. Measurements were implemented as in the mode of single pulses generated by 80 MW magneto-hydrodynamic (MHD) generator “Khibiny” (“hot” launches) and in the accumulation mode of rectangular current pulses of 0.125 Hz frequency generated by a 29 kW car generator (“cold” launches). From results of measurements, it was concluded that the most promising potential for Cu-Ni deposits Pil’gujarvi formation of the Northern wing of the Pechenga structure is rather quickly wedged out in Norway, while the conductive horizons of the Southern part of Pechenga, which have a weak prospect for Cu-Ni ores, follow into Norway nearly without a loss of power and integral electrical conductivity.

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A revised palynozonation for the Middle–Upper Triassic (Anisian–Rhaetian) Series of the Norwegian Arctic

Geological Magazine ◽

10.1017/s0016756819000906 ◽

2019 ◽

Vol 157 (10) ◽

pp. 1568-1592 ◽

Cited By ~ 5

Author(s):

Niall William Paterson ◽

Gunn Mangerud

Keyword(s):

Sequence Stratigraphy ◽

Barents Sea ◽

New Age ◽

Upper Triassic ◽

Svalbard Archipelago ◽

Dinoflagellate Cyst ◽

The Barents Sea

AbstractThe Barents Sea region of Arctic Norway preserves a thick succession of marine and deltaic Triassic strata that yield an abundant and diverse association of terrestrial and marine palynomorphs. Despite being the principal means for dating and correlation across this vast region, the Upper Triassic palynozonal resolution has remained relatively low. This is problematic due to the thickness of the Upper Triassic Series and since this corresponds to the longest of the three Triassic epochs. This paper presents a refined Middle–Upper Triassic palynozonation for the region, based on a detailed investigation of multiple localities ranging from the Svalbard Archipelago to the southern Barents Sea. The zonation comprises eleven spore-pollen zones: the Carnisporites spiniger, Triadispora obscura and Protodiploxypinus decus zones (Anisian), the Echinitosporites iliacoides Zone (Ladinian), the Semiretisporis hochulii, Podosporites vigraniae, Leschikisporis aduncus, and Protodiploxypinus spp. zones (Carnian), the Classopollis torosus, and Quadraeculina anellaeformis zones (Norian), and the Ricciisporites spp. Zone (Rhaetian). Additionally, two new dinoflagellate cyst zones are defined: the Rhaetogonyaulax arctica (upper Carnian – lower Norian) and Rhaetogonyaulax rhaetica (lower Norian) zones. Three new age-significant palynomorph taxa are described: Kyrtomisporis moerki sp. nov., Podosporites vigraniae sp. nov. and Semiretisporis hochulii sp. nov. The revised palynozonation is compared with previous palynozonal schemes for the Greater Barents Sea region, and its relationship to Triassic palaeoclimate, palaeoenvironments and sequence stratigraphy is discussed.

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Evolution and classification of the Productellidae (Productida), upper Paleozoic brachiopods

Journal of Paleontology ◽

10.1017/s0022336000039408 ◽

1997 ◽

Vol 71 (3) ◽

pp. 381-394 ◽

Cited By ~ 9

Author(s):

C. H. C. Brunton ◽

S. S. Lazarev

Keyword(s):

Type Species ◽

Western Europe ◽

Barents Sea ◽

Late Permian ◽

New Genera ◽

New Classification ◽

Upper Carboniferous ◽

The Barents Sea ◽

Upper Paleozoic

In the Lower Devonian the first productellids evolved from their chonetidine ancestors as the Productellinae. This subfamily was the stem group from which all the later Productidina evolved, yet three of its five subfamilies persisted to the end of the Permian. The main characters used in the new classification, here presented, for the Productellidae are described and reviewed, and the main changes seen during its evolution are discussed. Within this new classification five new genera are described: in the Overtoniinae are Barunkhuraya Lazarev from the latest Famennian, Onavia Lazarev from the Tournaisian, both from Mongolia, and Echinariella Lazarev (type species Krotovia jisuensiformis Sarycheva) from the late Permian of Transcaucasia; in the Marginiferinae there is Breileenia Brunton from the Visean of western Europe and in the Plicatiferinae is Maemia Lazarev from the mid and Upper Carboniferous on the coast of the Barents Sea. New species described in these genera are Barunkhuraya indrengynensis Lazarev, Onavia barunkhurensis Lazarev, Breileenia radiata Brunton, Maemia chaykensis Lazarev, and M. nana Lazarev.

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Determination of 137Cs and 90Sr in the bottom sediments from the Barents Sea

Journal of Radioanalytical and Nuclear Chemistry ◽

10.1007/s10967-010-0657-7 ◽

2010 ◽

Vol 286 (1) ◽

pp. 27-32 ◽

Cited By ~ 3

Author(s):

J. Solecki ◽

M. Kruk ◽

J. Orzeł

Keyword(s):

Bottom Sediments ◽

Barents Sea ◽

The Barents Sea

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Sequence stratigraphy, seismic lithological modeling, and AVO analyses: A case study from the Barents Sea

10.1190/1.1822054 ◽

1992 ◽

Author(s):

G. Richardsen ◽

H. Heggebø ◽

Ø. Tønsberg ◽

M. French

Keyword(s):

Sequence Stratigraphy ◽

Barents Sea ◽

The Barents Sea

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Seismostratigraphic study of a synrift megasequence, from the Barents Sea, northern Norway

Structural and Tectonic Modelling and its Application to Petroleum Geology ◽

10.1016/b978-0-444-88607-1.50014-0 ◽

1992 ◽

pp. 133-152

Author(s):

K. Gerdes ◽

J. Hurst ◽

R. Jeans

Keyword(s):

Barents Sea ◽

Northern Norway ◽

The Barents Sea

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Impact of Timanian thrust systems on the late Neoproterozoic–Phanerozoic tectonic evolution of the Barents Sea and Svalbard

Solid Earth ◽

10.5194/se-13-85-2022 ◽

2022 ◽

Vol 13 (1) ◽

pp. 85-115

Author(s):

Jean-Baptiste P. Koehl ◽

Craig Magee ◽

Ingrid M. Anell

Keyword(s):

Plate Tectonics ◽

Barents Sea ◽

Magnetic Data ◽

Svalbard Archipelago ◽

Northern Norway ◽

Novaya Zemlya ◽

Tectonic History ◽

The Barents Sea ◽

Late Neoproterozoic ◽

Northwestern Russia

Abstract. The Svalbard Archipelago consists of three basement terranes that record a complex Neoproterozoic–Phanerozoic tectonic history, including four contractional events (Grenvillian, Caledonian, Ellesmerian, and Eurekan) and two episodes of collapse- to rift-related extension (Devonian–Carboniferous and late Cenozoic). Previous studies suggest that these three terranes likely accreted during the early to mid-Paleozoic Caledonian and Ellesmerian orogenies. Yet recent geochronological analyses show that the northwestern and southwestern terranes of Svalbard both record an episode of amphibolite (–eclogite) facies metamorphism in the latest Neoproterozoic, which may relate to the 650–550 Ma Timanian Orogeny identified in northwestern Russia, northern Norway, and the Russian Barents Sea. However, discrete Timanian structures have yet to be identified in Svalbard and the Norwegian Barents Sea. Through analysis of seismic reflection, as well as regional gravimetric and magnetic data, this study demonstrates the presence of continuous thrust systems that are several kilometers thick, NNE-dipping, deeply buried, and extend thousands of kilometers from northwestern Russia to northeastern Norway, the northern Norwegian Barents Sea, and the Svalbard Archipelago. The consistency in orientation and geometry, as well as apparent linkage between these thrust systems and those recognized as part of the Timanian Orogeny in northwestern Russia and Novaya Zemlya, suggests that the mapped structures are likely Timanian. If correct, these findings would imply that Svalbard's three basement terranes and the Barents Sea were accreted onto northern Norway during the Timanian Orogeny and should hence be attached to Baltica and northwestern Russia in future Neoproterozoic–early Paleozoic plate tectonics reconstructions. In the Phanerozoic, the study suggests that the interpreted Timanian thrust systems represent major preexisting zones of weakness that were reactivated, folded, and overprinted by (i.e., controlled the formation of new) brittle faults during later tectonic events. These faults are still active at present and can be linked to folding and offset of the seafloor.

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