Optical water types of the Nordic Seas and adjacent areas [commun.]

• Autorzy: Aas E. , Hojerslev N. K. , Hokedal J. , Sorensen K.
• Języki publikacji: EN

Abstrakty

EN

A new map of Jerlov's optical water types in the Nordic Seas and adjacent waters at 139 locations, as well as a table with statistical and geographical properties of the vertical attenuation coefficient of downward irradiance at 475 nm, are presented. The data analysis is based on 715 recordings at different stations, at latitudes between 54° and 82°N, and longitudes between 31°W and 49°E, obtained by different authors from May 1954 to August 2003. The results show that the Atlantic and Polar waters are typically of oceanic type II-III, although during algal blooms the optical conditions may change to coastal types 1, 3 and 5, which are also the most frequent types found in coastal areas.

Słowa kluczowe

EN

Arctic Sea; Baltic Sea; Barents Sea; Nordic Seas; optical classification

• Wydawca: Polish Academy of Sciences, Institute of Oceanology ; Elsevier
• Czasopismo: Oceanologia
• Rocznik: 2013
• Tom: No. 55 (2)
• Strony: 471--482
• Opis fizyczny: Bibliogr. 47 poz., rys., tab.

Twórcy

autor

Aas E.

autor

Hojerslev N. K.

autor

Hokedal J.

autor

Sorensen K.

• Department of Geosciences, University of Oslo, Gaustadalleen 21, N-0349 Oslo, Norway,

Bibliografia

• 1.Aarup T., Holt N., Højerslev N.K., 1996a, Optical measurements in the North Sea - Baltic Sea transition zone. II. Water mass classification a long the Jutland west coast from salinity and spectral irradiance measurements, Cont. Shelf Res., 16(10), 1343-1353, http://dx.doi.org/10.1016/0278-4343(95)00076-3
• 2.Aarup T., Holt N., Højerslev N.K., 1996b, Optical measurements in the North Sea - Baltic Sea transition zone. III. Statistical analysis of bio-optical data from the Eastern North Sea, the Skagerrak and the Kattegat, Cont. Shelf Res., 16(10), 1355-1377, http://dx.doi.org/10.1016/0278-4343(95)00077-1
• 3.Aas E., 1969, On submarine irradiance measurements, Rep. Dept. Phys. Oceanogr. 6, Univ. Copenhagen, 51 pp.
• 4.Aas E., Berge G., 1976, Irradiance observations in the Norwegian and Barents seas, Rep. Dept. Geophys. 23, Univ. Oslo, 42 pp.
• 5.Aas E., Højerslev N.K., 2001, Attenuation of ultraviolet irradiance in North European coastal waters, Oceanologia, 43(1), 139-168.
• 6.Aas E., Høkedal J., 1996, Penetration of ultraviolet B, blue and quanta irradiance into Svalbard waters, Polar Res., 15(2), 127-138, http://dx.doi.org/10.1111/j.1751-8369.1996.tb00464.x
• 7.Aas E., Høkedal J., Højerslev N.K., Sandvik R., Sakshaug E., 2002, Spectral properties and UV-attenuation in Arctic marine waters, [in:] UV radiation and Arctic ecosystems, D.O. Hessen (ed.), Springer-Verlag, Heidelberg, 23-56.
• 8.Antoine D., Morel A., Gentili B., Gordon H.R., Barzon V. F., Evans R.H., Brown J.W., Walsh S., Baringer W., Li A., 2003, In search of long-term trends in ocean color, Eos, 84(32), 301, 308-309.
• 9.Antoine D., Morel A., Gordon H.R., Banzon V. F., Evans R.H., 2005, Bridging ocean color observations of the 1980's and 2000's in search of long-term trends, J. Geophys. Res., 110, C06009, http://dx.doi.org/10.1029/2004JC002620
• 10.Austin R.W., Petzold T.J., 1981, The determination of the diffuse attenuation coefficient of sea water using the Coastal Zone Color Scanner, [in:] Oceanography from space, J.F.R. Gower (ed.), Plenum Press, New York, 239-256.
• 11.Austin R.W., Petzold T.J., 1986, Spectral dependence of the diffuse attenuation coefficient of light in ocean waters, Opt. Eng., 25(3), 471-479, http://dx.doi.org/10.1117/12.7973845
• 12.Austin R.W., Petzold T.J., 1990, Spectral dependence of the diffuse attenuation coefficient of light in ocean waters: A re-examination using new data, Proc. SPIE, P. Soc. Photo-Opt. Ins., 1302, 79-93, http://dx.doi.org/10.1117/12.21436
• 13.Burenkov V.I., Ershova S.V., Kopelevich O.V., Sheberstov S.V., Shevchenko V.P., 2001b, An estimate of the distribution of suspended matter in the Barents Sea waters on the basis of the SeaWIFS satellite ocean color scanner, Oceanology, 41(5), 653-659.
• 14.Burenkov V.I., Vedernikov V.I., Ershova S.V., Kopelevich O.V., Sheberstov S.V., 2001a, Application of the ocean color data gathered by the SeaWIFS satellite scanner for estimating the bio-optical characteristics of waters in the Barents Sea, Oceanology, 41(4), 461-468.
• 15.Calkins J., Thordardottir T., 1982, Penetration of UV-B into waters off Iceland, [in:] The role of solar ultraviolet radiation in marine ecosystems, J. Calkins (ed.), Plenum Press, New York, 309-319.
• 16.Dalløkken R., Sandvik R., Sakshaug E., 1994, Variations in bio-optical properties in the Greenland/Iceland/Norwegian Seas, Proc. SPIE, P. Soc. Photo-Opt. Ins., 2258, 226-276.
• 17.Dalløkken R., Sandvik R., Sakshaug E., 1995, Seasonal variations in the Greenland Sea: Effect of phytoplankton light absorptions, [in:] Ecology of fjords and coastal waters, H.R. Skjoldal, C. Hopkins, K.E. Erikstad & H.P. Leinaas (eds.), Elsevier, Amsterdam, 33-43.
• 18.Endresen Ø., 1995, Observations of spectral irradiance, quantum irradiance and Secchi disk depth during KAREX-95, Norw. Polar Inst., Internal Rep., 18 pp.
• 19.Ershova S.V., Kopelevich O.V., Sheberstov S.V., Burenkov V. I., Khrapko A. N., 2001, A method for estimating the penetration of solar visual and ultraviolet radiation into the waters of the Arctic seas using satellite data: The case of a cloudless atmosphere, Oceanology, 41(3), 335-343.
• 20.Højerslev N.K., 1974a, Daylight measurements for photosynthetic studies in the Western Mediterranean, Rep. Dept. Phys. Oceanogr. 26, Univ. Copenhagen, 38 pp.
• 21.Højerslev N.K., 1974b, Inherent and apparent optical properties of the Baltic, Rep. Dept. Phys. Oceanogr. 23, Univ. Copenhagen, 89 pp.
• 22.Højerslev N.K., 1977, Inherent and apparent optical properties of the North Sea. Fladen Ground Experiment. FLEX 75, Rep. Dept. Phys. Oceanogr. 32, Univ. Copenhagen, 97 pp.
• 23.Højerslev N.K., 1978, Solar middle ultraviolet (UV-B) measurement in coastal waters rich in yellow substance, Limnol. Oceanogr., 23(5), 1076-1079.
• 24.Højerslev N.K., 1982, Bio-optical properties of the Fladen Ground: 'Meteor' - FLEX-75 and FLEX-76, J. Cons. Int. Explor. Mer, 40, 272-290.
• 25.Højerslev N.K., 1986, Optical properties of sea water, [in:] Landolt-Börnstein numerical data and functional relationships in science and technology, J. Südermann (ed.), Springer Verlag, Berlin, 383-462.
• 26.Hhttp://dx.doi.org/10.1029/91JC01822jerslev N. K., Aas E., 1991, A relationship for the penetration of ultraviolet Bradiation into the Norwegian Sea, J. Geophys. Res., 96(C9), 17003-17005, http://dx.doi.org/10.1029/91JC01822
• 27.Højerslev N., Jerlov N.G., 1977, The use of the colour index for determining quanta irradiance in the sea, Rep. Dept. Phys. Oceanogr. 12, Univ. Copenhagen, 12 pp.
• 28.Højerslev N., Lundgren B., 1977, Inherent and apparent optical properties of Icelandic waters. 'Bjarni S?mundsson Overflow 73', Rep. Dept. Phys. Oceanogr. 33, Univ. Copenhagen, 63 pp.
• 29.Høkedal J., 1993, Attenuation of downward UVB irradiance in the waters around King Charles Land and in the Greenland Sea. Calibration of a UVB irradiance meter, (in Norwegian), M.Sc. thesis, Dept. Geophys., Univ. Oslo, 75 pp.
• 30.Høkedal J., 1995, Observations of Secchi disk depth, spectral irradiance and quantum irradiance during KAREX-94, Norw. Polar Inst., 101, 30 pp.
• 31.Jerlov N.G., 1951, Optical studies of ocean waters, Rep. Swed. Deep-Sea Exp., Vol. III, Phys. Chem. No. 3, 59 pp.
• 32.Jerlov N.G., 1964, Optical classification of ocean water, [in:] Physical aspects of light in the sea, Univ. Hawaii Press, Honolulu, 45-49.
• 33.Jerlov N. G., 1968, Optical oceanography, Elsevier, Amsterdam, 194 pp.
• 34.Jerlov N. G., 1974a, A simple method for measuring quanta irradiance in the ocean, Rep. Dept. Phys. Oceanogr. 24, Univ. Copenhagen, 10 pp.
• 35.Jerlov N.G., 1974b, Significant relationships between optical properties of the sea, [in:] Optical aspects of oceanography, N.G. Jerlov & E. Steemann Nielsen (eds.), Acad. Press, London, 77-94.
• 36.Jerlov N. G., 1976, Marine optics, Elsevier, Amsterdam, 231 pp.
• 37.Jerlov N.G., 1978, The optical classification of sea water in the euphotic zone, Rep. Dept. Phys. Oceanogr. 36, Univ. Copenhagen, 46 pp.
• 38.Koprova L.I., Konovalov B.V., Pelevin V.V., Khlebnikov D. V., 2010, Variations in a set of optical and hydrologic parameters of the Atlantic surface waters, Izv. Atmos. Ocean. Phys.+, 46(2), 212-227.
• 39.Kratzer S., Høkansson B., Sahlin C., 2003, Assessing Secchi and photic zone depth in the Baltic Sea from satellite data, Ambio, 32(8), 577-585, http://dx.doi.org/10.1579/0044-7447-32.8.577
• 40.Morel A., Højerslev N. K., 1979, Conversion of quasi-monochromatic downward irradiance into downward quanta irradiance (370-700 nm), IAPSO, IUGG Canberra, 77 pp.
• 41.Nilsen J., Aas E., 1977, Relation between solar elevation and the vertical attenuation coefficient of irradiance in Oslofjorden, Rep. Dept. Geophys. 31, Univ. Oslo, 42 pp.
• 42.Paulson C.A., Simpson J.J., 1977, Irradiance measurements in the upper ocean, J. Phys. Oceanogr., 7(6), 952-956, http://dx.doi.org/10.1175/1520-0485(1977)007<0952:IMITUO>2.0.CO;2
• 43.Pelevin V.N., Rostovtseva V. V., 2001, Modelling of bio-optical parameters of open ocean waters, Oceanologia, 43(4), 469-477.
• 44.Pelevin V.N., Rutkovskaya V.A., 1977, On the optical classification of ocean waters from the spectral attenuation of solar radiation, Oceanology, 17(1), 28-32.
• 45.Pierson D. C., Kratzer S., Ströbeck N., Häkansson B., 2008, Relationship between the attenuation of downwelling irradiance at 490 nm with the attenuation of PAR (400-700 nm) in the Baltic Sea, Rem. Sens. Environ., 112(5), 668-680, http://dx.doi.org/10.1016/j.rse.2007.06.009
• 46.Rutkovskaya V. A., Pelevin V.N., Voytov V.I., 1982, Penetration of photosynthetically-active solar radiation into Atlantic ocean waters, Oceanology, 22(3), 293-297.
• 47.Simonot J.-Y., Le Treut H., 1986, A climatological field of mean optical properties of the world ocean, J. Geophys. Res., 91(C5), 6642-6646, http://dx.doi.org/10.1029/JC091iC05p06642