SEARCH

SEARCH BY CITATION

References

  • ACIA (2004), Impacts of a warming Arctic: Arctic climate impact assessment, synthesis report, 139 pp., Fairbanks, Alaska.
  • Anderson, D., A. Tice, and H. McKim (1973), The unfrozen water and the apparent specific heat capacity of frozen soils, paper presented at 2nd International Conference on Permafrost, Int. Permafrost Assoc., Yakutsk, Russia.
  • Andreev, A., et al. (2009), Weichselian and Holocene palaeoenvironmental history of the Bolshoy Lyakhovsky Island, New Siberian Archipelago, Arctic Siberia, Boreas, 38(1), 72110.
  • Antipina, Z., F. Are, and E. Molochushkin (1978), Calculation of permafrost degradation under the sea bottom, in Geothermophysical Investigations in Siberia, pp. 6673, Nauka, Novosibirsk, Russia.
  • Are, F. (1988), The contribution of shore thermoabrasion to the Laptev Sea sediment balance, paper presented at 7th International Conference on Permafrost, Int. Permafrost Assoc., Yellowknife, Northwest Territories, Canada.
  • Baker, G., and T. Osterkamp (1988), Implications of salt fingering processes for salt movement in thawed coarse-grained subsea permafrost, Cold Reg. Sci. Technol., 15, 4552.
  • Balobaev, V. (1991), Geothermal Conditions of North Asian Lithosphere in Permafrost Areas, 277 pp., Nauka, Novosibirsk, Russia.
  • Baranov, I. (1960), Geocryological map of the USSR, scale 1:10,000,000, Obruchev Inst. of Permafrost Stud., Acad. of Sci., Moscow.
  • Biggar, K., S. Haidar, M. Nahir, and P. Jarrett (1998), Site investigation of fuel spill migration into permafrost, Cold Reg. Eng., 2(12), 84104.
  • Blasco, S. (1995), Origin and engineering implications of deep ice-bearing permafrost, Canadian Beaufort Shelf, Geol. Surv. Can. Open File Rep., 3058, 159161.
  • Blasco, S., G. Fortin, P. Hill, M. O'Connor, and J. Brigham-Grette (1990), The late Neogene and Quaternary stratigraphy of the Canadian Beaufort continental shelf, in The Arctic Ocean Region: The Geology of North America, edited by A. Grantz, G. L. Johnson, and J. F. Sweeney, pp. 491501, Geol. Soc. of Am., Boulder, Colo.
  • Burn, C. (2002), Tundra lakes and permafrost, Richards Island, western Arctic coast, Canada, Can. J. Earth Sci., 39, 12811298.
  • Carslaw, H., and J. Jaeger (1959), Conduction of Heat in Solids, Oxford Univ. Press, London.
  • Collett, T., and K. Bird (1993), Unfrozen, high-salinity intervals within ice-bearing permafrost, North Slope of Alaska, paper presented at 6th International Conference on Permafrost, Int. Permafrost Assoc., Beijing.
  • Cramer, B., and D. Franke (2005), Indications for an active petroleum system in the Laptev Sea, NE Siberia, J. Pet. Geol., 28(4), 369384.
  • Danilov, I., and L. Zhigarev (1977), Some aspects of marine cryology of the Littoral shelf zone, in Geograficheskie problemy izucheniya Severa (Geographical Problems of Studying the North), pp. 115135, Moscow State Univ., Moscow.
  • Danilov, I., I. Komarov, and A. Vlasenko (1998), Pleistocene-Holocene permafrost of the east Siberian Eurasian Arctic Shelf, paper presented at 7th International Conference on Permafrost, Yellowknife, Northwest Territories, Canada.
  • Delisle, G. (1998), Numerical simulation of offshore permafrost development in the Laptev Sea, Siberia, paper presented at 7th International Conference on Permafrost, Int. Permafrost Assoc., Yellowknife, Northwest Territories, Canada.
  • Delisle, G. (2000), Temporal variability of sub-sea permafrost and gas hydrate occurrences as function of climate change in the Laptev Sea, Siberia, Polarforchung, 68, 221225.
  • deVries, D. (1963), Thermal properties of soils, in Physics of the Plant Environment, edited by W. R. vanWijk, pp. 210235, North-Holland, Amsterdam.
  • Dmitrenko, I., S. Kirillov, L. Tremblay, H. Kassens, O. Anisimov, S. Lavrov, S. Razumov, and M. Grigoriev (2011), Recent changes in shelf hydrography in the Siberian Arctic: Potential for subsea permafrost instability, J. Geophys. Res., 116, C10027, doi:10.1029/2011JC007218.
  • Drachev, S., L. Savostin, V. Groshev, and I. Bruni (1998), Structure and geology of the continental shelf of the Laptev Sea, Eastern Russian Arctic, Tectonophysics, 298, 357393.
  • Drachev, S., N. Kaul, and V. Beliaev (2003), Eurasia spreading basin to Laptev Shelf transition: Structural pattern and heat flow, Geophys. J. Int., 152, 688698.
  • Duchkov, A., et al. (1997), Heat flow and geothermal field of Siberia, Russ. Geol. Geophys., 11, 17161729.
  • Fartyshev, A. (1993), Features of Offshore Permafrost on the Laptev Sea Shelf, SB Nauka, Novosibirsk, Russia.
  • Fartyshev, A., and Z. Antipina (1982), Ocean eustasy, permafrost dynamics during 25 thousand years and permafrost forecast of Laptev Sea shelf, in Thermicity of Soils and Rocks in Cold Regions, pp. 89100, Permafrost Inst., Yakutsk, Russia.
  • Fleming, K., P. Johnston, D. Zwartz, Y. Yokoyama, K. Lambeck, and J. Chappell (1998), Refining the eustatic sea-level curve since the Last Glacial Maximum using far- and intermediate-field sites, Earth Planet. Sci. Lett., 163, 327342.
  • Franke, D., K. Hinz, and O. Oncken (2001), The Laptev Sea Rift, Mar. Pet. Geol., 18, 10831127.
  • Frenzel, B., M. Pécsi, and A. Velichko (Eds.) (1992), Atlas of Paleoclimates and Paleoenvironments of the Northern Hemisphere: Late Pleistocene-Holocene, 153 pp., G. Fischer, New York.
  • Gavrilov, A., and V. Tumskoy (2003), Model of mean annual temperature history for the Yakutian coastal lowlands and arctic shelf during the last 400 thousand years, paper presented at 8th International Conference on Permafrost, Int. Permafrost Assoc., Zürich, Switzerland.
  • Gavrilov, A., N. Romanovskii, V. Romanovsky, and H. Hubberten (2001), Offshore permafrost distribution and thickness in the eastern region of the Russian Arctic, in Changes in the atmosphere–land–sea system in the Amerasian Arctic, edited by I. Semiletov, pp. 209218, The Arct. Reg. Cent., Vladivostok, Russia.
  • Gavrilov, A., N. Romanovskii, and H.-W. Hubberten (2006), Paleogeographical scenario of late-glacial transgression on the Laptev Sea shelf, Earth Cryosphere, 10(1), 3950.
  • Glotov, V. (1994), Permafrost rocks and ground waters of the Arctic and Pacific Coasts, Nothern Eastern Russia, paper presented at 2nd International Conference on Arctic Margins (ICAM-94), Geophys. Inst., Univ. of Alaska Fairbanks, Magadan, Russia.
  • Grachev, A., R. Demenitskaya, and A. Karasik (1970), Mid-Arctic Ridge and their continental continuation [in Russian], Geomorphologiya, 1, 4245.
  • Grigoriev, N. (1962), The role of cryogenic factors in Yakutian coastal evilution, in Permafrost and the Associated Phenomena in the Yakut USSR, pp. 6878, AN SSSR, Moscow.
  • Grigoriev, N. (1966), Permafrost in the Yakutian Coastal Zone, 180 pp., Nauka, Moscow.
  • Hartikainen, J., R. Kouhia, and T. Wallroth (2010), Permafrost simulations at Forsmark using a numerical 2-D thermo-hydro-chemical model, Tech. Rep. TR-09-17, Aalto Univ. School of Sci. and Technol., Swed. Nucl. Fuel and Waste Manage. Co., Stockholm.
  • Hillel, D. (2004), Introduction to Environmental Soil Physics, 494 pp., Academic, Amsterdam.
  • Hinz, K., G. Delisle, and M. Block (1998), Seismic evidence for the depth extend of permafrost in shelf sediments of the Laptev Sea, Russian Arctic?, paper presented at 7th International Conference on Permafrost, Int. Permafrost Assoc., Yellowknife, Northwest Territories, Canada.
  • Hivon, E., and D. Sego (1990), Determination of unfrozen water content in saline permafrost using Time-Domain-Reflectometry (TDR), in Proceedings of the 5th Canadian Permafrost Conference, pp. 257262, Univ. Laval, Quebec City, Quebec, Canada.
  • Hivon, E., and D. Sego (1995), Strength of frozen saline soils, Can. Geotech. J., 32, 336354.
  • Holemann, J., S. Kirillov, T. Klagge, A. Novikhin, H. Kassens, and L. Timokhov (2011), Near-bottom water warming in the Laptev Sea in response to atmospheric sea-ice conditions in 2007, Polar Res., 30, 64256440.
  • Hunter, J., A. Judge, H. MacAulay, R. Good, R. Gagne, and R. Burns (1976), Permafrost and frozen sub-seabottom materials in the Southern Beaufort Sea, Tech. Rep. 22, Beaufort Sea Proj., Dep. Environ., Victoria, B. C., Canada.
  • Hutter, K., and B. Straughan (1997), Penetrative convection in thawing subsea permafrost, Continuum Mech. Thermodyn., 9, 259272.
  • Ivanov, M. (1969), Contemporary permafrost coastal-delta deposits of the Yana offing, in Problems of the Yakutia Geography, pp. 138148, AN SSSR, Yakutsk, Russia.
  • Jakobsson, M., R. Macnab, L. Mayer, R. Anderson, M. Edwards, J. Hatzky, H.-W. Schenke, and P. Johnson (2008), An improved bathymetric portrayal of the Arctic Ocean: Implications for ocean modeling and geological, geophysical and oceanographic analyses, Geophys. Res. Lett., 35, L07602, doi:10.1029/2008GL033520.
  • Kaplina, T. (2009), Alas complex of North Yakutia, Earth Cryosphere, 8(4), 317.
  • Kaplina, T., and A. Chekhovsky (1987), Reconstruction of paleogeographical condition of Holocene optimum on Yakutia Coastal Lowland, in Quaternary Period of North East Asia, pp. 145151, SVKNII DVO AS USSR, Magadan, Russia.
  • Kaplina, T., and I. Kuznetsova (1975), Geotemperature and climatic model of the epoch of the Yedoma Suite deposits accumulation in the Coastal Lowland of Yakutia, in Paleoenvironmental Problems of the Loess and Periglacial Areas, pp. 170174, Nauka, Moscow.
  • Kasymskaya, M. (2010), Relict thermokarst relief and taliks in the east arctic shelf, Avtoreferat, PhD thesis, Moscow State Univ., Moscow.
  • Kholodov, A., N. Romanovskii, A. Gavrilov, G. Tipenko, S. Drachev, H. Hubberterr, and H. Kassens (1999), Modeling of the offshore permafrost thickness on the Laptev Sea Shelf, Polarforschung, 69, 221227.
  • Kim, B., G. Grikurov, and V. Soloviev (1999), High resolution seismic studies in the Laptev Sea shelf: First results and future needs, in Land-Ocean System in the Siberian Arctic: Dynamics and History, pp. 683692, Springer, New York.
  • Konishchev, V. (1998), Relationship between the lithology of active-layer material and mean annual ground temperature in the former USSR, paper presented at 7th International Conference on Permafrost, Int. Permafrost Assoc., Yellowknife, Northwest Territories, Canada.
  • Kudryavtsev, V. (1978), General Geocryology, Moscow State Univ., Moscow.
  • Lachenbruch, A., and B. Marshall (1977), Sub-sea temperatures and a simple tentative model for offshore permafrost at Prudhoe Bay, Alaska, U.S. Geol. Surv. Open File Rep., 77–395, 34 pp.
  • Lea, D., P. Martin, D. Pak, and H. Spero (2002), Reconstructing a 350 ky history of sea level using planktonic Mg/Ca and oxygen isotopic records from a Cocos Ridge core, Quat. Sci. Rev., 21, 283293.
  • Lysak, S. (1988), Geothermal Heat Flux of Continental Rifts Zones, Nauka, Novosibirsk, Russia.
  • Mackay, J. (1972), Offshore permafrost and ground ice, southern Beaufort Sea, Canada, Can. J. Earth Sci., 9, 15501561.
  • Makogon, Y., S. Holditch, and T. Makogon (2007), Natural gas-hydrates: A potential energy source for the 21st century, J. Pet. Sci. Eng., 56, 1431.
  • Marchenko, A. (1966), Chemical water composition of the porous marine silts, Sov. Geol., 4, 155156.
  • Miller, D., and D. Bruggers (1980), Soil and permafrost conditions in the Alaskan Beaufort Sea, paper presented at Offshore Technology Conference, Offshore Technol. Conf., Houston, Tex.
  • Molochushkin, E. (1970), Thermal regime of deposits in the Southeastern Laptev Sea, Avtoreferat, PhD Thesis, Moscow State Univ., Moscow.
  • Molochushkin, E. (1973), The effect of thermal abrasion on the temperature of permafrost rocks in the coastal zone of the Laptev Sea, paper presented at 2nd International Conference on Permafrost, Int. Permafrost Assoc., Edmonton, Alberta, Canada.
  • Molochushkin, E., and R. Gavrilyev (1970), Thermal properties of bottom deposits in the nearshore zone of the Laptev Sea, in Methods of Determining Thermal Properties of Rocks, pp. 154169, Nauka, Moscow.
  • Neizvestnov, I., and I. P. Semenov (1973), Unfrozen water in the permafrost zone of the continental shelf and islands of the Soviet Arctic. Ground water in the cryolithosphere, paper presented at 2nd Annual Conference on Permafrost, Int. Permafrost Assoc., Edmonton, Alberta, Canada.
  • Neizvestnov, Y. (1981), Cryohyelrogeological conditions in the Arctic Shelf zone of the USSR, in The Cryolithozone of the Arctic Shelf, pp. 1827, Permafrost Inst., Yakutsk, Russia.
  • Nicolsky, D., and N. Shakhova (2010), Modeling sub-sea permafrost in the East Siberian Arctic Shelf: The Dmitry Laptev Strait, Environ. Res. Lett., 5, 015006, doi:10.1088/1748-9326/5/1/015006.
  • Nicolsky, D., V. Romanovsky, and G. G. Panteleev (2009), Estimation of soil thermal properties using in-situ temperature measurements in the active layer and permafrost, Cold Reg. Sci. Technol., 55, 120129.
  • Nixon, J. (1986), Thermal simulation of subsea permafrost, Can. J. Earth Sci., 23, 20392046.
  • Osher, S., and R. Fedkiw (2002), Level Set Methods and Dynamic Implicit Surfaces, 296 pp., Springer, New York.
  • Osterkamp, T. (2001), Subsea permafrost, in Encyclopedia of Ocean Sciences, pp. 29022912, Academic, San Diego, Calif.
  • Osterkamp, T., and T. Fei (1993), Potential occurrence of permafrost and gas hydrates in the continental shelf near Lonely, Alaska, paper presented at 6th International Conference on Permafrost, Int. Permafrost Assoc., Beijing, China.
  • Osterkamp, T., and W. Harrison (1985), >Sub-sea permafrost: Probing, thermal regime, and data analyses, 1975–1981, Summary rep. UAG R-301, 108 pp., Geophys. Inst., Univ. of Alaska Fairbanks, Fairbanks.
  • Osterkamp, T., and V. Romanovsky (1997), Freezing of the active layer on the coastal plain of the Alaskan Arctic, Permafrost Periglacial Processes, 8(1), 2344.
  • Overduin, P., H. Hubberten, V. Rachold, N. Romanovskii, M. Grigoriev, and M. Kasymskaya (2007a), Evolution and degradation of coastal and offshore permafrost in the Laptev and East Siberian Seas during the last climatic cycle, Spec. Pap. Geol. Soc. Am., 426, 97111.
  • Overduin, P., M. Grigoriev, R. Junker, V. Rachold, V. Kunitsky, D. Bolshiyanov, and L. Schirrmeister (2007b), The expedition COAST I: COAST drilling campaign 2005. Subsea permafrost studies in the near-shore zone of the Laptev Sea, Tech. Rep. 550, 40 pp., Ber. zur Polar- und Meeresforsch., Alfred Wegener Inst. for Polar and Mar. Res., Bremerhaven, Germany.
  • Page, F., and I. Iskander (1978), Geochemistry of subsea permafrost at Prudhoe Bay, Alaska, Spec. Rep. 78–14, U.S. Army Corps of Eng., Cold Reg. Res. and Eng. Lab., Hanover, N. H.
  • Petit, J., et al. (1999), Climate and atmospheric history of the past 420,000 years from the Vostok Ice Core, Antarctica, Nature, 399, 429436.
  • Ponomarev, V. (1940), On the history of the Kozhevnikov Bay in the Quaternary, Sov. Geol.), 11, 95101.
  • Ponomarev, V. (1960), Subterranean Waters In a Region With a Thick Stratum of Permanently Frozen Rocks, 200 pp., AN SSSR, Moscow.
  • Rachold, V., D. Bolshiyanov, M. Grigoriev, H.-W. Hubberten, R. Junker, V. Kunitsky, F. Merker, P. Overdum, and W. Schneider (2007), Nearshore Arctic subsea permafrost in transition, Eos Trans. AGU, 88(13), 149, doi:10.1029/2007EO130001.
  • Romanovskii, N. (1993), Fundamentals of Cryogenesis of Lithosphere, 336 pp., Moscow Univ. Press, Moscow.
  • Romanovskii, N., and H.-W. Hubberten (2001), Results of permafrost modeling of the lowlands and shelf of the Laptev Sea Region, Russia, Permafrost Periglacial Processes, 12(2), 191202.
  • Romanovskii, N., A. Gavrilov, V. Tumskoy, A. Kholodov, C. Siegert, H. Hubberten, and A. Sher (1998), Environmental evolution in the Laptev Sea Region during Late Pleistocene and Holocene, Polarforschung, 68, 237245.
  • Romanovskii, N., H.-W. Hubberten, A. Gavrilov, V. Tumskoy, G. Tipenko, M. Grigoriev, and C. Siegert (2000), Thermokarst and land-ocean interactions, Laptev Sea Region, Russia, Permafrost Periglacial Processes, 11(2), 137152.
  • Romanovskii, N., H.-W. Hubberten, A. Gavrilov, V. Tumskoy, and A. L. Kholodov (2004), Permafrost of the east Siberian Arctic shelf and coastal lowlands, Quat. Sci. Rev., 23(11–13), 13591369.
  • Romanovskii, N., H.-W. Hubberten, A. Gavrilov, A. Eliseeva, and G. Tipenko (2005), Offshore permafrost and gas hydrate stability zone on the shelf of East Siberian Seas, Geo Mar. Lett., 25, 167182.
  • Romanovsky, V., and T. Osterkamp (2000), Effects of unfrozen water on heat and mass transport processes in the active layer and permafrost, Permafrost Periglacial Processes, 11, 219239.
  • Romanovsky, V., S. Marchenko, R. Daanen, D. Sergeev, and D. Walker (2008), Soil climate and frost heave along the Permafrost/Ecological North American Arctic Transect, paper presented at 9th International Conference on Permafrost, Int. Permafrost Assoc., Fairbanks, Alaska.
  • Sass, J., A. Lachenbruch, and R. Munroe (1971), Thermal conductivity of rocks from measurements on fragments and its application to heat-flow, determinations, J. Geophys. Res., 76(14), 33913401.
  • Schirrmeister, L., K. Siegert, and V. Kunitsky (2002), Late Quaternary ice-rich permafrost sequences as a paleoenvironmental archive for the Laptev Sea Region in Northern Siberia, Int. J. Earth Sci., 91(1), 154167.
  • Sekretov, S. (1999), Eurasian Basin - Laptev Sea geodynamic system: Tectonic and structural evolution, Polarforschung, 69, 5154.
  • Sellman, P., and E. Chamberlain (1980), Permafrost beneath the Beaufort Sea: Near Prudhoe Bay, Alaska, J. Energy Resour. Technol., 1, 3548.
  • Semiletov, I., O. Dudarev, V. Luchin, K.-H. Shin, and N. Tanaka (2005), The East Siberian Sea as a transition zone between Pacific-derived waters and Arctic shelf waters, Geophys. Res. Lett., 32, L10614, doi:10.1029/2005GL022490.
  • Sethian, J. (1999), Level Set Methods and Fast Marching Methods: Evolving Interfaces in Computational Geometry, Fluid Mechanics, Computer Vision, and Materials Science, 378 pp., Cambridge Univ. Press, New York.
  • Shakhova, N., and I. Semiletov (2007), Methane release and coastal environment in the East Siberian Arctic Shelf, J. Mar. Syst., 66, 227243.
  • Shakhova, N., and I. Semiletov (2009), Methane hydrate feedbacks, in Arctic Climate Feedbacks: Global Implications, pp. 8192, WWF Int. Arct. Prog., Oslo.
  • Shakhova, N., I. Semiletov, and G. Panteleev (2005), The distribution of methane on the Siberian Arctic shelves: Implications for the marine methane cycle, Geophys. Res. Lett., 32, L09601, doi:10.1029/2005GL022751.
  • Shakhova, N., I. Semiletov, I. Leifer, P. Rekant, A. Salyuk, and D. Kosmach (2010a), Geochemical and geophysical evidence of methane release from the inner east siberian shelf, J. Geophys. Res., 115, C08007, doi:10.1029/2009JC005602
  • Shakhova, N., I. Semiletov, A. Salyuk, V. Yusupov, D. Kosmach, and O. Gustafsson (2010b), Extensive methane venting to the atmosphere from sediments of the East Siberian Arctic shelf, Science, 327, 12461250.
  • Shpolyanskaya, N., and G. Rozenbaum (2004), Paleopermafrost area. Late Pleistocene. Late Valday-Sartanian stage (18–20 ka), in Atlas of the Geology and Minerals of the Russian Continental Shelf, Sci. World, Moscow.
  • Soloviev, P. (1959), Permafrost of Northern Part of Lena-Amga Plain, 114 pp., Acad. Sci. USSR, Moscow.
  • Soloviev, V. (1981), Predicted distribution of relic submarine frozen zone (East Arctic seas example), in Cryolithozone of the Arctic Shelf [in Russian], pp. 2838, Permafrost Inst. Siber. Branch Russ. Acad. Sci., Yakutsk, Russia.
  • Soloviev, V., G. Ginzburg, E. Telepnev, and Y. Mikhaluk (1987), Cryothermia and Gas Hydrates in the Arctic Ocean, 150 pp., Sevmorgelogia, Leningrad, Russia.
  • Taylor, A., S. Dallimore, and S. Outcalt (1996), Late Quaternary history of the Mackenzie-Beaufort Region, Arctic Canada, from modeling of permafrost temperatures. 1. The onshore-offshore transition, Can. J. Earth Sci., 33, 5261.
  • Tipenko, G., N. Romanovskii, and A. Kholodov (1999), Simulation of the offshore permafrost and gashydrate stability zone: Mathematical solution, numerical realization and preliminary results, Polarforschung, 69, 229233.
  • Usov, V. (1965), Cryogenic structure and composition of recent deposits in the lagoon shore conditions near Indigirka River delta, Vestnik LAU, 18, 4959.
  • Velichko, A. (1999), Climate and Environmental Changes During the Last 65 Million Years (Cenozoic: From Paleocene to Holocene), Geos, Moscow.
  • Vigdorchik, M. (1978), A geographic based information management system for permafrost prediction in the Beaufort and Chukchi Sea Part II: Submarine permafrost on the Arctic shelf of Eurasia and the development of the Arctic in Pleistocene, technical report, Outer Cont. Shelf Environ. Asess. Prog., Inst. of Arct. and Alp. Res., Univ. of Colorado, Boulder.
  • Weaver, J., and J. Stewart (1982), In-situ hydrates under the Beaufort Sea shelf, in Proceedings of the 4th Canadian Permafrost Conference, edited by H. M. French., pp. 312319, Natl. Res. Counc. Can., Ottawa.
  • Williams, P. (1967), Properties and behaviour of freezing soils, Tech. Rep. 72, Norw. Geotech. Inst., Oslo.
  • Yershov, E. (1998), General Geocryology, 604 pp., Cambridge Univ. Press, New York.
  • Zhigarev, L. (1997), The Oceanic Cryolithozone, 320 pp., Moscow State Univ., Moscow.