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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Arctic Ocean
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Alpha Cordillera (1)
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Amerasia Basin (2)
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Barents Sea (2)
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Kara Sea (1)
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Arctic region
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Greenland
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East Greenland (1)
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Northern Greenland (1)
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Russian Arctic
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Franz Josef Land (1)
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Svalbard (2)
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Asia
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Krasnoyarsk Russian Federation
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Taymyr Dolgan-Nenets Russian Federation
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Taymyr Peninsula (1)
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Barents region (1)
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Canada
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Nunavut
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Ellesmere Island (1)
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Queen Elizabeth Islands
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Ellesmere Island (1)
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Commonwealth of Independent States
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Russian Federation
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Arkhangelsk Russian Federation
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Franz Josef Land (1)
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Krasnoyarsk Russian Federation
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Taymyr Dolgan-Nenets Russian Federation
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Taymyr Peninsula (1)
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Pechora Basin (1)
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Polar Urals
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Pai-Khoi (1)
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Russian Arctic
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Franz Josef Land (1)
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Timan Ridge (1)
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Timan-Pechora region (1)
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Timan Ridge (1)
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Urals
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Polar Urals
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Pai-Khoi (1)
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Europe
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Arkhangelsk Russian Federation
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Franz Josef Land (1)
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Pechora Basin (1)
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Timan Ridge (1)
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Timan-Pechora region (1)
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Western Europe
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Scandinavia
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Norway
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Finnmark Norway
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Varanger Peninsula (1)
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Russian Platform
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Timan Ridge (1)
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geologic age
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Cenozoic (1)
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Mesozoic
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Cretaceous
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Lower Cretaceous (1)
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Paleozoic (1)
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Primary terms
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Arctic Ocean
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Alpha Cordillera (1)
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Amerasia Basin (2)
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Barents Sea (2)
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Kara Sea (1)
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Arctic region
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Greenland
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East Greenland (1)
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Northern Greenland (1)
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Russian Arctic
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Franz Josef Land (1)
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Svalbard (2)
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Asia
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Krasnoyarsk Russian Federation
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Taymyr Dolgan-Nenets Russian Federation
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Taymyr Peninsula (1)
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-
-
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Canada
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Nunavut
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Ellesmere Island (1)
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Queen Elizabeth Islands
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Ellesmere Island (1)
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-
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Cenozoic (1)
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crust (2)
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deformation (1)
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Europe
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Arkhangelsk Russian Federation
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Franz Josef Land (1)
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Pechora Basin (1)
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Timan Ridge (1)
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Timan-Pechora region (1)
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Western Europe
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Scandinavia
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Norway
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Finnmark Norway
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Varanger Peninsula (1)
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-
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faults (2)
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fractures (1)
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geophysical methods (2)
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intrusions (1)
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mantle (1)
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Mesozoic
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Cretaceous
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Lower Cretaceous (1)
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orogeny (1)
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paleogeography (2)
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Paleozoic (1)
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plate tectonics (2)
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tectonics (2)
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rock formations
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Siberian Traps (1)
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Tectonic implications of the lithospheric structure across the Barents and Kara shelves
Abstract This paper considers the lithospheric structure and evolution of the wider Barents–Kara Sea region based on the compilation and integration of geophysical and geological data. Regional transects are constructed at both crustal and lithospheric scales based on the available data and a regional three-dimensional model. The transects, which extend onshore and into the deep oceanic basins, are used to link deep and shallow structures and processes, as well as to link offshore and onshore areas. The study area has been affected by numerous orogenic events in the Precambrian–Cambrian (Timanian), Silurian–Devonian (Caledonian), latest Devonian–earliest Carboniferous (Ellesmerian–svalbardian), Carboniferous–Permian (Uralian), Late Triassic (Taimyr, Pai Khoi and Novaya Zemlya) and Palaeogene (Spitsbergen–Eurekan). It has also been affected by at least three episodes of regional-scale magmatism, the so-called large igneous provinces: the Siberian Traps (Permian–Triassic transition), the High Arctic Large Igneous Province (Early Cretaceous) and the North Atlantic (Paleocene–Eocene transition). Additional magmatic events occurred in parts of the study area in Devonian and Late Cretaceous times. Within this geological framework, we integrate basin development with regional tectonic events and summarize the stages in basin evolution. We further discuss the timing, causes and implications of basin evolution. Fault activity is related to regional stress regimes and the reactivation of pre-existing basement structures. Regional uplift/subsidence events are discussed in a source-to-sink context and are related to their regional tectonic and palaeogeographical settings.
Dyke emplacement and crustal structure within a continental large igneous province, northern Barents Sea
Abstract We perform an integrated analysis of magnetic anomalies, multichannel seismic and wide-angle seismic data across an Early Cretaceous continental large igneous province in the northern Barents Sea region. Our data show that the high-frequency and high-amplitude magnetic anomalies in this region are spatially correlated with dykes and sills observed onshore. The dykes are grouped into two conjugate swarms striking oblique to the northern Barents Sea passive margin in the regions of eastern Svalbard and Franz Josef Land, respectively. The multichannel seismic data east of Svalbard and south of Franz Josef Land indicate the presence of sills at different stratigraphic levels. The most abundant population of sills is observed in the Triassic successions of the East Barents Sea Basin. We observe near-vertical seismic column-like anomalies that cut across the entire sedimentary cover. We interpret these structures as magmatic feeder channels or dykes. In addition, the compressional seismic velocity model locally indicates near-vertical, positive finger-shaped velocity anomalies (10–15 km wide) that extend to mid-crustal depths (15–20 km) and possibly deeper. The crustal structure does not include magmatic underplating and shows no regional crustal thinning, suggesting a localized (dyking, channelized flow) rather than a pervasive mode of magma emplacement. We suggest that most of the crustal extension was taken up by brittle–plastic dilatation in shear bands. We interpret the geometry of dykes in the horizontal plane in terms of the palaeo-stress regime using a model of a thick elastoplastic plate containing a circular hole (at the plume location) and subject to combined pure shear and pressure loads. The geometry of dykes in the northern Barents Sea and Arctic Canada can be predicted by the pattern of dilatant plastic shear bands obtained in our numerical experiments assuming boundary conditions consistent with a combination of extension in the Amerasia Basin sub-parallel to the northern Barents Sea margin and a mild compression nearly orthogonal to the margin. The approach has implications for palaeo-stress analysis using the geometry of dyke swarms. Supplementary material: Details on traveltime tomography model: Resolution tests, traveltime information and ray coverage are available at https://doi.org/10.6084/m9.figshare.c.3783542