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Practical applicability and preliminary results of the Baltic environmental satellite remote sensing system (SATBAŁTYK)

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The SatBałtyk (Satellite Monitoring of the Baltic Sea Environment) project is being realized in Poland by the SatBałtyk Scientific Consortium, specifically appointed for this purpose, which associates four scientific institutions: the Institute of Oceanology PAN in Sopot – coordinator of the project, the University of Gdańsk (Institute of Oceanography), the Pomeranian Academy in Słupsk (Institute of Physics) and the University of Szczecin (Institute of Marine Sciences). The project is aiming to prepare a technical infrastructure and set in motion operational procedures for the satellite monitoring of the Baltic Sea ecosystem. The main sources of input data for this system will be the results of systematic observations by metrological and environmental satellites such as TIROS N/NOAA, MSG (currently Meteosat 10), EOS/AQUA and Sentinel -1, 2, 3 (in the future). The system will deliver on a routine basis the variety of structural and functional properties of this sea, based on data provided by relevant satellites and supported by hydro-biological models. Among them: the solar radiation influx to the sea’s waters in various spectral intervals, energy balances of the short- and long-wave radiation at the Baltic Sea surface and in the upper layers of the atmosphere over the Baltic, sea surface temperature distribution, dynamic states of the water surface, concentrations of chlorophyll a and other phytoplankton pigments in the Baltic waters, spatial distributions of algal blooms, the occurrence of coastal upwelling events, and the characteristics of primary production of organic matter and photosynthetically released oxygen in the water and many others. The structure of the system and preliminary results will be presented.
Rocznik
Tom
Strony
43--49
Opis fizyczny
Bibliogr. 29 poz., rys.
Twórcy
autor
  • Institute of Oceanology Polish Academy of Sciences, Powstańcow Warszawy 55, 81-712 Sopot, ostra@iopan.gda.pl
autor
  • Institute of Oceanology Polish Academy of Sciences, Powstańcow Warszawy 55, 81-712 Sopot, darecki@iopan.gda.pl
autor
  • University of Gdańsk, Institute of Oceanography, Marszałka Piłsudskiego 46, 81-378 Gdynia, oceak@ug.edu.pl
autor
  • Pomeranian University in Słupsk, Bohaterow Westerplatte 64, 76-200 Słupsk, ficek@apsl.edu.pl
Bibliografia
  • 1. Antoine D., J. M. Andre, A. Morel: Oceanic primary production: 2. Estimation at global scale from satellite (Coastal Zone Color Scanner) chlorophyll, Global Biogeochemical Cycles 10 (1) (1996) 56-69.
  • 2. Bugajny, N., Furmańczyk, K., Dudzińska-Nowak, J. i Paplińska-Swerpel, B., 2013. Modelling morphological changes of beach and dune induced by storm on the Southern Baltic coast using XBeach (case study: Dziwnow Spit). Journal of Coastal Research , 65, pp. 672-677.
  • 3. Campbell J., D. Antoine, R. Armstrong, K. Arrigo, W. Balch, R. Barber, M. Behrenfeld, R. Bidigare, J. Bishop, M-E. W. Carr, Esaias, P. Falkowski, N. Hoepner, R. Iverson, D. Keifer, S. Lohrenz, J. Marra, A. Morel, J. Ryan, V. Vedemikov, K. Waters, C. Yentsch, J. Yoder: Comparison of algorithms for estimating ocean primary production from surface chlorophyll, temperature, and irradiance, Global Biogeochemical Cycles 16 (2002) 74-75.
  • 4. Carr M-E., M. A. Friedrichs, M. Schmeltz, M. N. Aita, D. Antoine, K. R. Arrigo, I. Asanuma, O. Aumont, R. Barber, M. Behrenfeld, R. Bidigare, E. T. Buitenhuis, J. Campbell, A. Ciotti, H. Dierssen, M. Dowell, J. Dunne, W. Esaias, B. Gentili, W. Gregg, S. Groom, N. Hoepner, J. Ishizaka, T. Kameda, C. Le Quere, S. Lohrenz, J. Marra, F. Melin, K. Moore, A. Morel, T. E. Reddy, J. Ryan, M. Scardi, T. Smyth, K. Turpie, G. Tilstone, K. Waters, Y. Yamanaka: A comparison of global estimates of marine primary production from ocean color, Deep Sea Res. 53 (2006) 741-770.
  • 5. Darecki M., D. Ficek, A. Krężel, M. Ostrowska, R. Majchrowski, S.B. Woźniak, K. Bradtke, J. Dera, B. Woźniak: Algorithms for the remote sensing of the Baltic ecosystem (DESAMBEM). Part 2: Empirical validation, Oceanologia 50(4) (2008) 509-538.
  • 6. Darecki M., D. Stramski: An evaluation of MODIS and SeaWiFS bio-optical algorithms in the Baltic Sea, Remote Sens. Environ. 89 (3) (2004) 326–350.
  • 7. Darecki M., S. Kaczmarek, J. Olszewski: SeaWiFS chlorophyll algorithms for the Southern Baltic, Int. J. Remote Sens. 26 (2) (2005) 247–260.
  • 8. Ficek D., B. Woźniak, R. Majchrowski, M. Ostrowska: Influence of nonphotosynthetic pigments on the measured quantum yield of photosynthesis, Oceanologia 42(2) (2000) 231–242.
  • 9. Ficek D., R. Majchrowski, M. Ostrowska, S. Kaczmarek, B. Woźniak, J. Dera: Practical applications of the multicomponent marine photosynthesis model (MCM), Oceanologia 45(3) (2003) 395-423.
  • 10. Furmańczyk, K., Bugajny, N., Dudzińska-Nowak, J., Andrzejewski, P., Trefenko, P., Giza, A,. Benedyczak, R. i Cieszyński, Ł., 2012. Projekt MICORE – podsumowanie zrealizowanych zadań. ZZOP w Polsce – stan obecny i perspektywy. Tom 4. Zagrożenia i systemy Ostrzegania, str. 77-86.
  • 11. Krężel A.: Solar radiation at the Baltic Sea surface, Oceanologia 21 (1985) 5-32.
  • 12. Majchrowski R., M. Ostrowska: Influence of photo- and chromatic acclimation on pigment composition in the sea, Oceanologia 42(2) (2000) 157–175.
  • 13. Majchrowski R., M. Ostrowska: Modified relationships between the occurrence of photoprotecting carotenoids of phytoplankton and Potentially Destructive Radiation in the sea, Oceanologia 41(4) (1999) 589–599.
  • 14. Ostrowska M., R. Majchrowski, D.N. Matorin, B. Woźniak: Variability of the specific fluorescence of chlorophyll in the ocean. Part 1. Theory of classical ‘in situ’ chlorophyll fluorometry, Oceanologia 42(2) (2000) 203–219.
  • 15. Pelevin V. N., B. Woźniak, O. J. Koblentz-Mishke: Algorithm for estimating primary production in the sea from satellite sensing, Oceanologia 31 (1991) 57-72.
  • 16. Platt T., S. Sathyendranath, A. Longhurst: Remotesensing of primary production in the ocean – promise and fulfilment, Philosophical Transactions of the Royal Society of London, Series B 348 (1995) 191-201.
  • 17. Rozwadowska A.: Influence of aerosol vertical profile variability on retrievals of aerosol optical thickness from NOAA AVHRR measurements in the Baltic region Oceanologia 49(2) (2007) pp. 165-184.
  • 18. Woźniak B., A. Krężel, J. Dera: Development of a satellite method for Baltic ecosystem monitoring (DESAMBEM) - an ongoing project in Poland, Oceanologia 46(3) (2004) 445-455.
  • 19. Woźniak B., A. Krężel, M. Darecki, S.B. Woźniak, R. Majchrowski, M. Ostrowska, Ł. Kozłowski, D. Ficek, J. Olszewski, J. Dera: Algorithm for the remote sensing of the Baltic ecosystem (DESAMBEM). Part 1: Mathematical apparatus, Oceanologia 50(4) (2008) 451–508.
  • 20. Woźniak B., J. Dera, D. Ficek, M. Ostrowska, R. Majchrowski: Dependence of the photosynthesis quantum yield in oceans on environmental factors, Oceanologia, 44(4) (2002) 439–459.
  • 21. Woźniak B., J. Dera, D. Ficek, R. Majchrowski, M. Ostrowska, S. Kaczmarek: Modelling light and photosynthesis in the marine environment, Oceanologia 45(2) (2003) 171-245.
  • 22. Woźniak B., J. Dera, D. Ficek, R. Majchrowski, S. Kaczmarek, M. Ostrowska, O.I. Koblentz-Mishke: Modelling the influence of acclimation on the absorption properties of marine phytoplankton, Oceanologia 41(2), (1999) 187–210.
  • 23. Woźniak B., J. Dera, D. Ficek, R. Majchrowski, S. Kaczmarek, M. Ostrowska, O.I. Koblentz-Mishke: Model of the ‘in vivo’ spectral absorption of algal pigments. Part 1. Mathematical apparatus, Oceanologia 42(2) (2000) 177–190.
  • 24. Woźniak B., J. Dera, R. Majchrowski, D. Ficek, O. I. Koblentz-Mishke, M. Darecki: ‘IOPAS initial model’ of marine primary production for remote sensing application, Oceanologia 39(4) (1997) 377–395.
  • 25. Woźniak B., J. Dera, R. Majchrowski, D. Ficek, O.I. Koblentz-Mishke, M. Darecki: Statistical relationships between photosynthesis and abiotic conditions in the ocean – the IOPAS initial model for remote sensing application, Proc. SPIE 3222 (1997) 516–528.
  • 26. Woźniak B., J. Dera: Light Absorption in Sea Water, Atmospheric and Oceanographic Sciences Library 33, Springer (2007) 454 pp.
  • 27. Woźniak B., K. Bradtke, M. Darecki, J. Dera, J. Dudzińska-Nowak, L. Dzierzbicka-Głowacka, D. Ficek, K. Furmańczyk, M. Kowalewski, A. Krężel, R. Majchrowski, M. Ostrowska, M. Paszkuta, J. Stoń-Egiert, M. Stramska, T. Zapadka: SatBaltic – a Baltic environmental satellite remote sensing system- an ongoing project in Poland. Part 1: Assumptions, scope and operating range, Oceanologia 53(4) (2011) 897–924.
  • 28. Woźniak B., K. Bradtke, M. Darecki, J. Dera, J. Dudzińska-Nowak, L. Dzierzbicka-Głowacka, D. Ficek, K. Furmańczyk, M. Kowalewski, A. Krężel, R. Majchrowski, M. Ostrowska, M. Paszkuta, J. Stoń-Egiert, M. Stramska, T. Zapadka: SatBaltic – a Baltic environmental satellite remote sensing system- an ongoing project in Poland. Part 2: Practical applicability and preliminary results, Oceanologia 53(4) (2011) 925–958.
  • 29. Woźniak B., R. Hapter, J. Dera: Light curves of marine phytoplankton photosynthesis in the Baltic, Oceanologia 27 (1989) 61–78.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5ea5caf6-ad35-40a7-9388-e618cac23ad6
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