PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników

Czasopismo

2005 | 47 | 4 |

Tytuł artykułu

Influence of coastal upwelling on chlorophyll a concentration in the surface water along the Polish coast of the Baltic Sea

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Space-time variations in chlorophyll a (Chl a) concentrations in the surface water of upwelling regions along the Polish coast of the Baltic Sea were analysed. Carried out between 1998 and 2002 in the warmer season (from April till October), the measurements were targeted mainly at the Hel upwelling. Satellite-derived sea surface temperature (AVHRR) and Chl a data (SeaWiFS) were used. Generally speaking, the Chl a concentration increased in the upwelling plume, except along the Hel Peninsula, where two scenarios took place: a reduction in Chl a concentration in spring and an increase in autumn.

Wydawca

-

Czasopismo

Rocznik

Tom

47

Numer

4

Opis fizyczny

p.433-452,fig.,ref.

Twórcy

autor
  • University of Gdansk, Marszalka Pilsudskiego 46, 81-378 Gdynia, Poland
autor
autor

Bibliografia

  • Acha E. M., Mianzan H.W., Guerrero R.A., Favero M., Bava J., 2004, Marine fronts at the continental shelves of austral South America: physical and ecological processes, J. Marine Syst., 44 (1)–(2), 83–105.
  • Álvarez-Salgado X.A., Doval M.D., Borges A. V., Joint I., Frankignoulle M., Woodward E. M. S., Figueiras F.G., 2001, Off-shelf fluxes of labile materials by an upwelling filament in the NW Iberian Upwelling System, Prog. Oceanogr., 51 (2)–(4), 321–337.
  • Barton E.D., Aristegui J., Tett P., Cantón M., Garcia-Braun J., Hernandez-León S., Nykjær L., Almeida C., Almunia J., Ballesteros S., Basterretxea G., Escanez J., Garcia-Weill L., Hernandez-Guerra A., López-Laatzen F., Molina R., Montero M.F., Navarro-Perez E., Rodrıguez J. M., van Lenning K., Velez H., Wild K., 1998, The transition zone of the Canary Current upwelling region, Prog. Oceanogr., 41 (4), 455–504.
  • Brink K.H., Cowles T. J., 1991, The coastal transition zone program, J. Geophys. Res., 96 (C8), 14637–14647.
  • Burska D., Szymelfenig M., The upwelling of nutrients in the coastal area of the Hel Peninsula (the Baltic Sea), Oceanol. Hydrobiol. Stud., Suppl., (in press).
  • Bychkova I.A., Viktorov S.V., 1987, Use of satellite data for identification and classification of upwelling in the Baltic Sea, Oceanology, 27 (2), 158–162.
  • Bychkova I.A., Viktorov S.V., Shumakher D.A., 1988, A relationship between the large-scale atmospheric circulation and the origin of coastal upwelling in the Baltic Sea, Meteorol. Gidrol., 10, 91–98, (in Russian).
  • Darecki M., Kaczmarek S., Olszewski J., 2005, SeaWiFS ocean colour chlorophyll algorithms for the southern Baltic Sea, Int. J. Remote Sens., 26 (2), 247–260.
  • Darecki M., Stramski D., 2004, An evaluation of MODIS and SeaWiFS bio-optical algorithms in the Baltic Sea, Remote Sens. Environ., 89 (3), 326–350.
  • Davenport R., Neuer S., Helmke P., Perez-Marrero J., Llinas O., 2002, Primary productivity in the northern Canary Islands region as inferred from SeaWiFS imagery, Deep-Sea Res. Pt. II, 49 (17), 3481–3496.
  • Davenport R., Neuer S., Hern´andez-Guerra A., Rueda M. J., Llinas O., Fischer G., Wefer G., 1999, Seasonal and inter annual pigment concentration in the Canary Islands region from CZCS data and comparison with observations from the ESTOC, Int. J. Remote Sens., 20 (7), 1419–1433.
  • Dugdale R.C., Wilkerson F.P., 1989, New production in the upwelling center at Point Conception, California: temporal and spatial patterns, Deep-Sea Res., 36 (7), 985–1007.
  • Gabric A. J., Garcia L., Van Camp L., Nykjær L., Eifler W., Schrimpf W., 1993, Offshore export of shelf production in the Cap Blanc (Mauritania) giant filament as derived from coastal zone color scanner imagery, J. Geophys. Res., 98 (C3), 4697–4712.
  • Gordon H.R., Wang M., 1994, Retrieval of water-leaving radiance and aerosol optical thickness over the oceans with SeaWiFS: a preliminary algorithm, Appl. Optics, 33 (3), 443–452.
  • Gromisz S., Szymelfenig M., Phytoplankton in the Hel upwelling region (the Baltic Sea), Oceanol. Hydrobiol. Stud., Suppl., (in press).
  • Gromisz S., Witek Z., 2001, Main phytoplankton assemblages in the Gulf of Gdańsk and the Pomeranian Bay from 1994 to 1997, Bull. Sea Fish. Inst., 2 (153), 31–51.
  • Joint I., Groom S.B., 2000, Estimation of phytoplankton production from space: current status and future potential of satellite remote sensing, J. Exp. Mar. Biol. Ecol., 250 (1), 233–255.
  • Joint I., Groom S.B., Wollast R., Chou L., Tilstone G. H., Figueiras F. G., Loijens M., Smyth T. J., 2002, The response of phytoplankton production to periodic upwelling and relaxation events at the Iberian shelf break: estimates by the 14C method and by satellite remote sensing, J. Marine Syst., 32 (1)–(3), 219–238.
  • Kostianoy A.G., Zatsepin A.G., 1996, The West African coastal upwelling filaments and cross-frontal water exchange conditioned by them, J. Marine Syst., 7 (2)–(4), 349–359.
  • Kowalewski M., 1998, Coastal upwellings in a shallow stratified sea on the example of the Baltic Sea, Ph. D. thesis, Institute of Oceanography, Univ. Gd., Gdynia, 83 pp., (in Polish).
  • Krężel A., 1985, Solar radiation at the Baltic Sea surface, Oceanologia, 21, 5–32.
  • Krężel A., 1997, Recognition of mesoscale hydrophysical anomalies in a shallow sea using broadband satellite remote sensing methods, Diss. and monogr., Univ. Gd., Gdynia, 173 pp., (in Polish).
  • Krężel A., Ostrowski M., Szymelfenig M., 2005, Sea surface temperature distribution during upwelling along the Polish Baltic coast, Oceanologia, 47 (4), 415–432.
  • MacIsaac J. J., Dugdale R.C., Barber R.T., Blasco D., Packard T.T., 1985, Primary production cycle in upwelling center, Deep-Sea Res., 32 (5), 503–529.
  • Matciak M., Burska D., Bradtke K., Kaluźny M., Szymanek L., Szymelfenig M., Description of hydrological conditions in the Hel upwelling region (the Baltic Sea), Oceanol. Hydrobiol. Stud., Suppl., (in press).
  • Matciak M., Krężel A., 1991, Green light penetration depth in Puck Bay, Oceanologia, 31, 153–157.
  • Morel A., Prieur L., 1977, Analysis of variations in ocean colour, Limnol. Oceanogr., 22 (4), 709–722.
  • Ocean Colour European Archive Network, 1996, [http://marine.jrc.cec.eu.int/index.php?module=pagemaster&PAGE user op=view page&PAGE id=19&MMN position=25:22].
  • O’Reilly J.E., Maritorena S., Mitchell B.G., Siegel D. A., Carder K. L., Garver S.A., Kahru S.A., McClain C., 1998, Ocean colour chlorophyll algorithms for SeaWiFS, J. Geophys. Res., 103 (C11), 24937–24953.
  • Ruddick K. G., Gons H. J., Rijkeboer M., Tilstone G., 2001, Optical remote sensing of chlorophyll a in case 2 waters by use of an adaptive two-band algorithm with optimal error properties, Appl. Optics, 40 (21), 3575–3585.
  • Ruddick K. G., Ovidio F., Rijkeboer M., 2000, Atmospheric correction of SeaWiFS imagery for turbid coastal and inland waters, Appl. Optics, 39 (6), 897–912.
  • Sathyendranath S. (ed.), 2000, Remote sensing of ocean colour in coastal, and other optically-complex, waters, IOCCG Rep. No 3, 145 pp.
  • Sathyendranath S., Platt T., 1997, Analytic model of ocean colour, Appl. Optics, 36 (12), 2620–2629.
  • Semovski S. V., Dowell M.D., Hapter R., Szczucka J., Beszczyńska-Moller A., Darecki M., 1999, The integration of remotely sensed, sea-truth and modelled data in the investigation of mesoscale features in the Baltic coastal phytoplankton field, Int. J. Remote Sens., 20 (7), 1265–1287.
  • Shillington F. A., Peterson W.T., Hutchings L., Probyn T. A., Waldron H. N., Agenbag J. J., 1990, A cool upwelling filament off Namibia, southwest Africa: preliminary measurements of physical and biological features, Deep-Sea Res., 37 (11), 1753–1772.
  • Siegel H., Gerth M., Tiesel R., Tschersich G., 1999, Seasonal and interannual variations in satellite derived sea surface temperature of the Baltic Sea in the 1990’s, Dt. Hydrogr. Z., 51 (4), 407–422.
  • Siegel H., Seifert T., 1985, On the influence of the sea bottom on the spectral reflectance in the region of the Oder Bank (Southern Baltic Sea), Beitr. Meeresk., 52, 65–71.
  • Smyth T. J., Miller P. I., Groom S.B., Lavender S. J., 2001, Remote sensing of sea surface temperature and chlorophyll during Lagrangian experiments at the Iberian margin, Prog. Oceanogr., 51 (2)–(4), 269–281.
  • Solanki H.U., Dwivedi R. M., Nayak S.R., 2001, Synergistic analysis of SeaWiFS chlorophyll concentration and NOAA-AVHRR SST features for exploring marine living resources, Int. J. Remote Sens., 22 (18), 3877–3882.
  • Thomas A.C., Strub P.T., Carr M.E., Weatherbee R., 2004, Comparisons of chlorophyll variability between the four major global eastern boundary currents, Int. J. Remote Sens., 25 (7)–(8), 1443–1447.
  • Urbański J.A., 1995, Upwellings of the Polish coast of the Baltic Sea, Prz. Geofiz., 40 (2), 141–153, (in Polish).
  • Wasmund N., Nausch G., Postel L., Witek Z., Zalewski M., Gromisz S., Łysiak-Pastuszak E., Olenina I., Kavolyte R., Jasinskaite A., Muller-Karulis B., Ikauniece A., Andrushaitis A., Ojaveer H., Kallaste K., Jaanus A., 2000, Trophic status of costal and open areas of the south-eastern Baltic Sea based on nutrient and phytoplankton data from 1993–1997, Meereswiss. Ber., 38, 83 pp.
  • Zalewski M., Ameryk A., Szymelfenig M., Primary production and chlorophyll a concentration during upwelling events along the Hel Peninsula (the Baltic Sea), Oceanol. Hydrobiol. Stud., Suppl., (in press).

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-dc791529-3780-47c1-bc50-4824802930c8
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.