Труды КНЦ (Естественные и гуманитарные науки вып.2/2023(2))

Труды Кольского научного центра РАН. Серия: Естественные и гуманитарные науки. 2023. Т. 1, № 2. С. 104-118. Transactions of the Kola Science Centre of RAS. Series: Natural Sciences and Humanities. 2023. Vol. 1, No. 2. P. 104-118. 34. Shipilov E. V. Basaltic magmatism and strike-slip tectonics in the Arctic margin of Eurasia: evidence for the early stage of geodynamic evolution of the Amerasia Basin // Russian Geology and Geophysics. 2016. V. 57 (12). P. 1668-1687. 35. Smith D. G., Harland W. B., Hughes N. F., Pickton C. A. G. The geology of Kong Karls Land, Svalbard // Geological Magazine. 1976. V. 113. № 3. P. 193-231. 36. Worsley D., Aga O.J., Dalland A., Elverhoi A., Thon A. The geological history of Svalbard. Evolution of an Arctic archipelago. Stavanger: Statoil, 1986. 121 p. References 1. Burov Yu. P., Krasil'shchikov A. A., Firsov L. V., Klubov B. A. Vozrast doleritov Sval'barda (po radiologicheskim dannym) [Age of Svalbard dolerites (according to radiological data)]. Geologiya Sval'barda [Geology of Svalbard]. Leningrad, NIIGA, 1976, pp. 117-125. (In Russ.). 2. Antonsen P., Elverhoi A., Dypvik H., Solheim A. Shallow bedrock geology of Olga basin area, Northwestern Barents Sea. The American Association of Petroleum Geologists Bulletin, 1991, vol. 75, no. 7, pp. 1178-1194. 3. Bailey J. C., RasmussenM. H. Petrochemistry of Jurassic and Cretaceous tholeiites fromKongKarls Land, Svalbard, and their relationto mesozoic magmatism in the Arctic. PolarResearch, 1997, vol. 16, no. 1., pp. 37-62. 4. Bedrock geological map of Svalbard and TopoSvalbard. Oslo: Norwegian Polar Institute. Available at: https :/ /www.npolar.no/kart/#toggle -id-16 5. Birkenmajer K. Tertiary tectonic deformation of Lower Cretaceous dolerite dykes in a Precambrian terrane, South­ West Spitsbergen. Stud. Geol., 1986, vol. 89, pp. 31-44. 6. Birkenmajer K., Krajewsky K. P., Pecskay Z., Lorenc M. W. K/Ar dating of basic intrusions at Bellsund, Spitsbergen, Svalbard. Polish Polar Research, 2010, vol. 31, no. 1, pp. 3-16. 7. Buchan K. L., Ernst R. E. A giant circumferential dyke swarm associated with the High Arctic Large Igneous Province (HALIP). Gondwana Research, 2018, vol. 58, pp. 39-57. 8. Burov P., Krasil'scikov A. A., Firsov L. V., Klubov B. A. The age of Spitsbergen dolerites (from isotopic dating). Nor. Polarinst., 1977, pp. 101-108. 9. Corfu F., Polteau S., Planke S., Faleide J. I., Svensen H., Zayoncheck A. & Stolbov N. U-Pb geochronology of Cretaceous magmatism on Svalbard and Franz Josef Land, Barents Sea Large Igneous Province. Geological magazine, 2013, vol. 150, pp. 1127-1135. 10. Gayer R. A., Gee D. G., Harland W. B. et al. Radiometric age determinations on rocks from Spitsbergen. Oslo, Norsk Polarinstitutt, Skrifter, 1966, no. 137, 39 p. 11. Grogan P., Nyberg K., Fotland B., Myklebust R., Dahlgren S., Riis F. Cretaceous magmatism south and east of Svalbard: evidence from seismic reflection and magnetic data. Polarforschung, 2000, vol. 68, pp. 25-34. 12. Harland W. B. Geology of Svalbard. University of Cambridge, 1997, 514 p. 13. Karyakin Yu. V., Shipilov E. V. Geochemical specifics and Ar/Ar age of the basaltoid magmatism of the Alexandra Land, Northbrook, Hooker, and Hayes islands (Franz Josef Land Archipelago). Dokl. Earth Sci., 2009, vol. 425, no. 1, pp. 564-566. 14. Komarnitsky V. M., Shipilov E. V. New geological data on magmatism of the Barents Sea. Dokl. Ross. Akad. Nauk, 1991, vol. 320, no. 5, pp. 1203-1206. 15. Lobkovsky L. I., Shipilov E. V., Kononov M. V. Crustal Sinking and Formation of the Main Tectonic Structures and Igneous Provinces in the Arctic in the Late Cretaceous-Cenozoic: A View from the Subduction-Convective Model. Dokl. Earth Sci., 2021, vol. 501, vol. 1, pp. 901-905. 16. Magnetic anomaly map Norway and adjacent areas. Scale 1:3 million. Geological Survey of Norway, 2010. Available at: https://www.ngu.no/en/publikasjon/magnetic-anomaly-map-norway-and-adjacent-areas-scale-1:3-mill 17. Maher Jr. H. D. Manifestations of the Cretaceous High Arctic Large Igneous Province in Svalbard // J. Geol., 2001, vol. 109, no. 1, pp. 91-104. 18. Metelkin D. V., Abashev V. V., Vernikovsky V. A., Mikhaltsov N. E. Paleomagnetic Evidence for the Iceland Plume Paleogeographic Stationarity and Early Cretaceous Manifestation in the High Arctic. Dokl. Earth Sci., 2021, vol. 501, no. 2, pp. 1015-1019. 19. Minakov A., Mjelde R., Faleide J. et al. Mafic intrusions east of Svalbard imaged by active-source seismic tomography. Tectonophysics, 2012, vol. 518-521, pp. 106-118. 20. Nejbert K., Krajewski K., Dubinska E., Pecskay Z. Dolerites of Svalbard, north-west Barents Sea Shelf: age, tectonic setting and significance for geotectonic interpretation of the High-Arctic Large Igneous Province. Polar Research, 2011, vol. 30, no. 7306, pp. 1-24. 21. Riefstahl F., Estrada S., Geissler W. et al. Provenance and characteristics of rocks from the Yermak Plateau, Arctic Ocean: Petrographic, geochemical and geochronological constraints. Marine Geology, 2013, vol. 343, pp. 125-145. 22. Saettem J., Bugge T., Fanavoll S., Goll R., Mork A., Mork M., Smelror M., Verdenius J. Cenozoic margin development and erosion of the Barents Sea: Core evidence from southwest of Bjornoya. Marine Geology, 1994, vol. 118, pp. 257-281. © Шипилов Э. В., 2023 117