Inflow of Atlantic-origin waters to the Barents Sea along glacial troughs

• Autorzy: Matishov G.G. , Matishov D.G. , Moiseev D.V.
• Języki publikacji: EN

Abstrakty

EN

This paper discusses the role of glacial shelf topography in the formation of general oceanological and biological mechanisms in the Barents Sea. Analysis of geomorphological data and oceanographic observations obtained on board MMBI research vessels in 2001-08 has shown that: fluxes of Atlantic-origin waters pass along glacial troughs; the inflow of Atlantic waters to the Barents Sea from the west increased from 2001 till 2007, although this advection began to weaken in 2008; vertical and horizontal thermohaline gradients intensified during the investigated period; a warm period similar to that of the 1930s was observed in the Barents Sea at the beginning of the 21st century.

Słowa kluczowe

EN

bathymetry; troughs; climate; circulation; thermohaline; water masses

• Wydawca: Polish Academy of Sciences, Institute of Oceanology ; Elsevier
• Czasopismo: Oceanologia
• Rocznik: 2009
• Tom: No. 51 (3)
• Strony: 321--340
• Opis fizyczny: bibliogr. 45 poz., wykr.

Twórcy

autor

Matishov G.G.

autor

Matishov D.G.

autor

Moiseev D.V.

• Murmansk Marine Biological Institute, Kola Science Centre of Russian Academy of Sciences, Vladimirskaya St. 17, 183010 Murmansk, Russia,

Bibliografia

• 1.Blindheim J., 1989, Cascading of Barents Sea bottom water into the Norwegian Sea, Rapp. P-V Réun. Cons. Int. Explor. Mer, 188, 49-58.
• 2.Borovskaya R.V., Lomakin P.D., 2008, Specific Features of ice conditions in the Sea of Azov and the Kerch Strait in the winter season of 2005/06, Russ. Meteorol. Hydrol., 33 (7), 453-457.
• 3.Gammelsrød T., Leikvin O., Lien V., BudgellW.P., Loeng H., MaslowskiW., 2009, Mass and heat transports in the NE Barents Sea: Observations and models, J. Marine Syst., 75 (1-2), 56-69.
• 4.Golubev V.A., Zuyev A.N., Lebedev I.A., 1989, On the objective analysis of oceanographic fields according to data of ship observations in the Barents Sea, Trudi AANII, 415, 117-126, (in Russian).
• 5.Golubev V.A., Zuyev A.N., Lebedev I.A., 1992, A complex of methods of the statistical processing and objective analysis of in situ oceanographic observations data, Trudi AANII, 426, 7-19, (in Russian).
• 6.Golubev V., Zuyev A., Oelke C., 2000, BarKode: the Barents and Kara Seas oceanographic data base (1898-1998), http://www.npolar.no/oelke/barkode/ barkode.html.
• 7.Helland-Hansen B., Nansen F., 1909, The Norwegian Sea, Fisk.dir. Skr. Ser. Havunder., 2 (2), 1-360.
• 8.Ingvaldsen R., Loeng H., Asplin L., 2002, Variability in the Atlantic inflow to the Barents Sea based on a one-year time series from moored current meters, Cont. Shelf Res., 22, 505-519.
• 9.Knipowitsch N., 1905, Hydrologische Untersuchungen im Europäischen Eismeer, Ann. Hydrogr. Mar. Meteorol., 33, 241-260.
• 10.Koenigk T., Mikolajewicz U., Jungclaus J.H., Kroll A., 2009, Sea ice in the Barents Sea: seasonal to interannual variability and climate feedbacks in a global coupled model, Clim. Dynam., 32, 1119-1138.
• 11.Kostianoy A.G., Nihoul J.C. J., Rodionov V.B., 2004, Physical oceanography of frontal zones in the Sub-arctic Seas, Elsevier Oceanogr. Ser. 71, Elsevier, Amsterdam, 316 pp.
• 12.Loeng H., 1991, Features of the physical oceanographic conditions of the Barents Sea, Polar Res., 10 (1), 5-18.
• 13.Løyning T.B., 2001, Hydrography in the north-western Barents Sea, July-August 1996, Polar Res., 20 (1), 1-12.
• 14.Matishov G.G., 1976, Structure and origin of marginal (lengthwise) troughs of glacial shelves, Oceanology, 14 (2), 315-328, (in Russian).
• 15.Matishov G.G., 1977, Relief, morphotectonics and major traits of development of the Barents Sea shelf, Oceanology, 17 (3), 527-542, (in Russian).
• 16.Matishov G.G., 1979, Genetic classification of the relief of the subsea continental edge (Arctic Ocean and North Atlantic), Oceanology, 21 (1), 94-105, (in Russian).
• 17.Matishov G.G., 1997a, Bathymetric map of the Barents and West Kara Seas, Russ. Acad. Sci., Murmansk Mar. Biol. Inst., Scale 1:2/313/000 at Latitude 72◦N, Murmansk.
• 18.Matishov G.G., 1997b, Rola peryglacjału oceanicznego w ewolucji ekosystemów morskich Arktyki, Sesja Polarna, Lublin, 40-50.
• 19.Matishov G.G., 1999, Oceanic periglacial in the evolution of the Arctic marine ecosystems, World Res. Rev., 11 (2), 190-195.
• 20.Matishov G.G., 2008, The influence of climatic and ice regime variability on navigation, Her. Russ. Acad. Sci., 78 (5), 457-463.
• 21.Matishov G., Cherkin N., Vermillion M., Forman S., 1995, Bathymetric map of the Franz Josef Land Area, Geol. Soc. Am. Map and Chart Ser. MCH080, Map scale 1:500 000/Boudler, CO.
• 22.Matishov G.G., Golubev V.A., Zhichkin A.P., 2007, Temperature anomalies in the Barents Sea during summer periods of 2001-2005, Dokl. Earth Sci., 412 (1), 82-84.
• 23.Matishov G., Makarevich P., Timofeev S., Kuznetsov L., Druzkov N., Larionov V., Golubev V., Zuyev A., Adrov N., Denisov V., Iliyn G., Kuznetsov A., Denisenko S., Savinov V., Shavikyn A., Smolyar I., Levitus S., O'Brien T., Baranova O., 2000, Biological atlas of the Arctic Seas 2000: Plankton of the Barents and Kara Seas, Int. Ocean Atlas Ser., Vol. 2, Murmansk Mar. Biol. Inst. -World Data Center Oceanogr., Murmansk - Silver Spring., 348 pp.
• 24.Matishov D.G., Matishov G.G., 2004, Radioecology in Northern European Seas, Springer, Berlin, 335 pp.
• 25.Matishov G. G., Matishov D.G., Berdnikov S.V., Sorokina V. V., Levitus S., Smolyar I.V., 2008a, Secular climate fluctuations in the Sea of Azov Region (based on thermohaline data over 120 years), Dokl. Earth Sci., 422 (7), 1101-1104.
• 26.Matishov G.G., Matishov D.G., Gargopa Yu.M., 2008b, Climatogenic changes in ecosystems of the Russia's southern seas under man-caused impacts, Izv. RAS, Geogr. Ser. 3, 26-34, (in Russian).
• 27.Matishov G.G., Stepan'yan O.V., Povazhnyi V.V., Kovaleva G.V., Kreneva K.V., 2007, Functioning of the ecosystem in the Sea of Azov during winter, Dokl. Earth Sci., 413 (2), 297-299.
• 28.Matishov G.G., Tarasov G.A., Pavlova L.G., Alekseev V.V., 1994, Quaternary geology of the shelf areas surrounding Franz Joseph Land, Mar. Geol., 119 (3-4), 301-304.
• 29.Matishov G.G., Volkov V.A., Denisov V.V., 1998a, Structure of warm Atlantic water circulation in the Northern Barents Sea, Dokl. Earth Sci., 362 (7), 1041-1044.
• 30.Matishov G., Zuyev A., Golubev V., Adrov N., Slobodin V., Levitus S., Smolyar I., 1998b, Climatic atlas of the Barents Sea: Temperature, salinity, oxygen, Int. Ocean Atlas Ser., Vol. 1, Murmansk Mar. Biol. Inst. -World Data Center Oceanogr., Murmansk - Silver Spring., 140 pp.
• 31.Matishov G., Zuyev A., Golubev V., Adrov N., Timofeev S., Karamushko O., Pavlova L., Fadyakin O., Buzan A., Braunshtein A., Moiseev D., Smolyar I., Locarnini R., Tatushko R., Boyer T., Levitus S., 2004, Climatic atlas of the Arctic Seas 2004: Part I. Database of the Barents, Kara, Laptev and White Seas - oceanography and marine biology, Int. Ocean Informat. Ser., Vol. 9, NOAA Atlas NESDIS 58, DVD, World Data Center Oceanogr., Silver Spring.
• 32.O'Dwyer J., Kasajima Y., Nøst O.A., 2001, North Atlantic Water in the Barents Sea opening, Polar Res., 20 (2), 209-216.
• 33.Panteleev G., Motoyoshi I., Grotov A., Nechaev D., Yaremchuk M., 2004, Mass, heat and salt balances in the Eastern Barents Sea obtained by inversion of hydrographic section data, J. Oceanogr., 60 (3), 613-623.
• 34.Pfirman S. L., Bauch D., Gammelsrød T., 1994, The Northern Barents Sea: water mass distribution and modification, [in:] The polar oceans and their role in shaping the global environment: The Nansen centennial volume, O. Johannessen, R. Muench & J. Overland (eds.), AGU Geophys. Monogr. 85, AGU, Washington, D.C., 77-94.
• 35.Polyakov I.V., Alexeev V.A., Bhatt U. S., Polyakova E. I., Zhang X., 2009, North Atlantic warming: patterns of long-term trend and multi-decadal variability, Clim. Dynam., doi:10.1007/s00382-008-0522-3.
• 36.Rudels B., Jones E.P., Anderson L.G., Kattner G., 1994, On the intermediate depth waters of the Arctic Ocean, [in:] The polar oceans and their role in shaping the global environment: The Nansen centennial volume, O. Johannessen, R. Muench & J. Overland (eds.), AGU Geophys. Monogr. 85, AGU, Washington, D.C., 33-46.
• 37.SBE 19plus SEACAT Profiler, 2005, User's manual, Version 012, Bellevue, Washington, D.C.
• 38.Schauer U., Loeng H., Rudels B., Ozhigin V. K., Dieck W., 2002, Atlantic water flow through the Barents and Kara Seas, Deep-Sea Res. Pt. I, 49 (12), 2281-2298.
• 39.SEACAT SBE 19, 2001, Conductivity, temperature, depth recorder. Operating manual, Washington, D. C.
• 40.Skagseth Ø., Furevik T., Ingvaldsen R., Loeng H., Mork K.A., Orvik K.A., Ozhigin V., 2008, Volume and heat transports to the Arctic Ocean via the Norwegian and Barents Seas, [in:] Arctic-subarctic ocean fluxes defining the role of the Northern Seas in climate, R.R. Dickson, J. Meincke & P. Rhines (eds.), Springer, Dordrecht, 45-62.
• 41.Smolyar I., Adrov N., 2003, The quantitative definition of the Barents Sea Atlantic water: mapping of the annual climatic cycle and interannual variability, ICES J. Marine Sci., 60 (4), 836-845.
• 42.Tantsyura A. I., 1959, On currents in the Barents Sea, Tr. Polyarn. Nauchno-Issled. Inst. Mor. Ryb. Khoz. Okeanogr., 11, 35-53, (in Russian).
• 43.Tereschenko V.V., 1996, Seasonal and year-to-year variations of temperature and salinity along the Kola meridian transect, ICES CM/C:11, 24 pp.
• 44.Vinje T., 2001, Anomalies and trends of sea-ice extent and atmospheric circulation in the Nordic Seas during the period 1864-1998, J. Climate, 14 (3), 255-267.
• 45.World Ocean Atlas, 1994, CD-ROM data sets, Nat. Oceanogr. Data Center, Ocean Climate Lab., U. S. Gov. Print. Office, Washington, D.C.