Oceanologia (Jun 2002)

Two models for absorption by coloured dissolved organic matter (CDOM)

  • Jill N. Schwarz,
  • Piotr Kowalczuk,
  • S³awomir Kaczmarek,
  • Glenn F. Cota,
  • B. Greg Mitchell,
  • Mati Kahru,
  • Francisco P. Chavez,
  • Alex Cunningham,
  • David McKee,
  • Peter Gege,
  • Motoaki Kishino,
  • David A. Phinney,
  • Robin Raine

Journal volume & issue
Vol. 44, no. 2
pp. 209 – 241

Abstract

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The standard exponential model for CDOM absorption has been applied to data from diverse waters. Absorption at 440 nm (ag440) ranged between close to zero and 10 m-1, and the slope of the semilogarithmic absorption spectrum over a minimum range of 400 to 440 nm (s440) ranged between < 0.01 and 0.04 nm-1. No relationship was found between ag440 or s440 and salinity. Except in the southern Baltic, s440 was found to have a broad distribution (0.0165 ± 0.0035), suggesting that it should be introduced as an additional variable in bio-optical models when ag440 is large. An alternative model for CDOM absorption was applied to available high quality UV-visible absorption spectra from the Wisla river (Poland). This model assumes that the CDOM absorption spectrum comprises distinct Gaussian absorption bands in the UV, similar to those of benzene. Five bands were fit to the data. The mean central energy of all bands was higher in early summer (E~7.2, 6.6, 6.4, 6.2 and 5.5 eV or 172, 188, 194, 200 and 226 nm) than in winter. The higher energy bands were found to decay in both height and width with increasing salinity, while lower energy bands broadened with increasing salinity. s440 was found to be correlated with shape parameters of the bands centred at 6.4 and 5.5 eV. While the exponential model is convenient for optical modelling and remote sensing applications, these results suggest that the Gaussian model offers a deeper understanding of chemical interactions affecting CDOM molecular structure.

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