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2005 | 47 | 4 |

Tytuł artykułu

Modelling the light absorption properties of particulate matter forming organic particles suspended in seawater. Part 2. Modelling results

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN

Wydawca

-

Czasopismo

Rocznik

Tom

47

Numer

4

Opis fizyczny

p.621-662,fig.,ref.

Twórcy

autor
  • Polish Academy of Sciences, Powstancow Warszawy 55, 81-712 Sopot, Poland
autor
autor
autor
autor
autor

Bibliografia

  • Bandaranayake W.M., 1998, Mycosporines: are they nature’s sunscreens?, Nat. Prod. Rep., 15 (2), 159–172.
  • Born M., Wolf E., 1968, Principles of optics, Pergamon Press, Oxford, 719 pp., [1973, Russian edn., Nauka, Moskva].
  • Campbell I.D., Dwek R.A., 1984, Biological spectroscopy, Benjamin/Cummings Publ. Comp., Menlo Park, California etc., 404 pp.
  • Carder K. L., Steward R.G., Harvey G.R., Ortner P. B., 1989, Marine humic and fulvic acids: their effects on remote sensing of ocean chlorophyll, Limnol. Oceanogr., 34 (1), 68–81.
  • Carreto J. I., Carignan M.O., Daleo G., DeMarco S.G., 1990a, Occurrence of mycosporine-like amino acids in the red-tide dinoflagellate Alexandrium excavatum: UV-photoprotective compounds?, J. Plankton Res., 12, 909–921.
  • Carreto J. I., Lutz V.A., DeMarco S.G., Carignan M. O., 1990b, Influence and wavelength dependence of mycosporine-like aminoacid synthesis in the dinoflagellate Alexandrium excavatum, [in:] Toxic marine photoplankton, E. Graneli, L. Edler, B. Sundstrom & D.M. Anderson (eds.), Elsevier, New York, 275–298.
  • Favre-Bonvin J., Arpin N., Brevard C., 1976, Structure de la mycosporine (P310), Can. J. Chem., 54, 1105–1113.
  • Ficek D., Kaczmarek S., Stoń-Egiert J.,Woźniak B., Majchrowski R., Dera J., 2004, Spectra of light absorption by phytoplankton pigments in the Baltic; conclusions to be drawn from a Gaussian analysis of empirical data, Oceanologia, 46 (4), 533–555.
  • Filipowicz B., Więckowski W., 1983, Biochemistry, Vol. 2, PWN, Warszawa, 624 pp., (in Polish).
  • Garcia-Pichel F., 1994, A model for internal self-shading in planktonic organisms and its implications for the usefulness of ultraviolet sunscreens, Limnol. Oceanogr., 39 (7), 1704–1717.
  • Grodziński D.M., 1978, Plant biophysics, Państ. Wyd. Rol. Leś., Warszawa, 405 pp., (in Polish).
  • Hayase K., Tsubota K., 1985, Sedimentary humic acid and fulvic acid as fluorescent organic materials, Geochim. Cosmochim. Acta, 49, 159–163.
  • Iturriaga R., Siegel D.A., 1989, Microphotometric characterization of phytoplankton and detrital absorption propertis in the Sargasso Sea, Limnol. Oceanogr., 34 (8), 1706–1726.
  • Jeffrey S.W., Mantoura R. F.C., Bjørnland T., 1997, Data for the identification of 47 key phytoplankton pigments, [in:] Phytoplankton pigments in oceanography: guidelines to modern methods, S.W. Jeffrey, R. F.C. Mantoura & S.W.Wright (eds.), UNESCO, Paris, 449–559.
  • Karentz D., McEuen F. S., LandM.C., DunlapW.C., 1991, Survey of mycosporinelike aminoacid compounds in Antarctic marine organisms: potential protection from ultraviolet exposure, Mar. Biol., 108 (1), 157–166.
  • Kęcki Z., 1993, Molecular spectroscopy, PWN, Warszawa, (in Polish).
  • Majchrowski R., 2001, Influence of irradiance on the light absorption characteristics of marine phytoplankton, Diss. and monogr., Pomeranian Pedagogical Univ., Słupsk, 1, 131 pp., (in Polish).
  • Majchrowski R., Woźniak B., Dera J., Ficek D., Kaczmarek S., Ostrowska M., Koblentz-Mishke O. I., 2000, Model of the ‘in vivo’ spectral absorption of algal pigments. Part 2. Practical applications of the model, Oceanologia, 42 (2), 191–202.
  • Meyers-Schulte K., Hedges J. I., 1986, Molecular evidence for a terrestrial component of organic matter dissolved in ocean water, Nature, 321, 61–63.
  • Miller N., Carpentier R., 1991, Energy dissipation and photoprotection mechanisms during chlorophyll photobleaching in thylakoid membranes, Photochem. Photobio., 54, 465–472.
  • Moisan T.A., Mitchell B.G., 2001, UV absorption by mycosporine-like amino acids in Phaeocystis antarctica (Karsten) induced by photosynthetically available radiation, Mar. Biol., 138 (1), 217–227.
  • Morel A., Ahn Y.H., 1990, Optical efficiency factors of free-living marine bacteria: influence of bacterioplankton upon the optical properties and particular organic carbon in oceanic waters, J. Mar. Res., 48, 145–175.
  • Nyquist G., 1979, Investigation of some optical properties of sea water with special reference to lignin sulfonates and humic substances, Ph.D. thesis, Dept. Analytical and Marine Chemistry, G¨oteborg Univ., G¨oteborg, 203 pp.
  • Pempkowiak J., 1989, Origin, sources and properties of humic substances in the Baltic Sea, Ossolineum, Wrocław, 146 pp., (in Polish).
  • Pope R.M., Fry E. S., 1997, Absorption spectrum (380–700 nm) of pure water. II. Integrating cavity measurements, Appl. Optics, 36 (33), 8710–8723.
  • Romankevich E.A., 1977, The geochemistry of organic substances in the ocean, Nauka, Moskva, 256 pp., (in Russian).
  • Shlyk A.A. (ed.), 1974, Chlorophyll, Nauka i Tekhnika, Minsk, 415 pp., (in Russian).
  • Smith R.C., Baker K. S., 1981, Optical properties of the clearest natural waters (200–800 nm), Appl. Optics, 20 (2), 177–184.
  • Sogandares F.M., Fry E. S., 1997, Absorption spectrum 340–640 nm of pure water. I. Photothermal measurements, Appl. Optics, 36 (33), 8699–8709.
  • Stramski D., Bricaud A., Morel A., 2001, Modeling the inherent optical properties of the ocean based on the detailed composition of the planktonic community, Appl. Optics, 40 (18), 2929–2945.
  • Stuermer D.H., 1975, The characterization of humic substances in sea water, Ph.D. thesis, Mass. Inst. Technol.–Woods Hole Oceanogr. Inst., 163 pp.
  • Van de Hulst H.C., 1981, Light scattering by small particles, Dover Publ., Inc., New York, 470 pp.
  • Vernet M., Whitehead K., 1996, Release of ultraviolet-absorbing compounds by the red-tide dinoflagellate Lingulodinium polyedra, Mar. Biol., 127 (1), 35–44.
  • Whitehead K., Hedges J. I., 2003, Electrospray ionization tandem mass spectrometric and electron impact mass spectrometric characterization of mycosporinelike amino acids, Rapid Commun. Mass Sp., 17 (18), 2133–2138.
  • Woźniak B., Dera J., Ficek D., Majchrowski R., Kaczmarek S., Ostrowska M., Koblentz-Mishke O. I., 1999, Modelling the influence of acclimation on the absorption properties of marine phytoplankton, Oceanologia, 41 (2), 187–210.
  • Woźniak B., Dera J., Ficek D., Majchrowski R., Kaczmarek S., Ostrowska M., Koblentz-Mishke O. I., 2000, Model of the ‘in vivo’ spectral absorption of algal pigments. Part 1. Mathematical apparatus, Oceanologia, 42 (2), 177–190.
  • Woźniak B., Woźniak S.B., Tyszka K., Dera J., 2005, Modelling the light absorption properties of particulate matter forming organic particles suspended in seawater. Part 1. Model description, classification of organic particles, and example spectra of the light absorption coefficient and the imaginary part of the refractive index of particulate matter for phytoplankton cells and phytoplankton-like particles, Oceanologia, 47 (2), 129–164.
  • Zepp R., Schlotzhauer P.F., 1981, Comparison of photochemical behaviour of various humic substances in water: 3. Spectroscopic properties of humic substances, Chemosphere, 10, 479–486.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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