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Variability of total, back and side scattering to mass concentration of marine particles
Neukermans, G.; Loisel, H.; Mériaux, X.; McKee, D.; Astoreca, R.; Doxaran, D. (2010). Variability of total, back and side scattering to mass concentration of marine particles, in: Proceedings Ocean Optics XX, September 25–October 1, 2010, Anchorage, Alaska. pp. 10
In: (2010). Proceedings Ocean Optics XX, September 25–October 1, 2010, Anchorage, Alaska. Oceanography Society: [s.l.]. , meer

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    VLIZ: Open Repository 241434 [ OMA ]
Documenttype: Congresbijdrage

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Project Top | Auteurs 
  • BELCOLOUR-2 : Optical remote sensing of marine, coastal and inland waters, meer

Auteurs  Top 
  • Neukermans, G., meer
  • Loisel, H.
  • Mériaux, X.
  • McKee, D.
  • Astoreca, R., meer
  • Doxaran, D.

Abstract
    We investigate the relationship between various scattering properties (total, back and side scattering) and Total Suspended Matter (TSM), the dry mass concentration of marine particles in suspension, for coastal and offshore waters in various regions (Coastal Atlantic, Southern North Sea, Mediterranean Sea and French Guyana waters). We quantify the uncertainty on TSM concentration estimation from each scattering property. We further quantify the variability of the total (bp), side (bs) and back scattering (bbp) to mass concentration ratio and explain this variability in terms of the physical (size) and chemical (apparent density, refractive index) properties of the particles. We show that bbp, bp and bs correlate well with TSM (correlation coefficients higher than 0.92), though with considerable scatter along the regression line. We find that 75% of the predicted TSM concentrations from a model based on bs are within 29% of the measured TSM concentration and within 38% and 48% for bbp and bp based models, respectively. The variability of mass specific total scattering (bp*) is mainly explained by total geometric cross section (PSA) and backscattering ratio ( bbp ~ ), with observations above (below) the regression line having significantly higher (lower) bbp ~ and lower (higher) PSA. Variability of mass specific backscattering (bbp*) was smaller and could not be explained by a single parameter. We do find that points below the regression line have significantly lower densities (?a), PSA, refractive index (n), bbp ~ and chlorophyll a:TSM ratio than points near or above the line. After classification of observations in Case 1 and 2 water types, we find that Case 2 waters (N=149) show significantly higher values of bbp*, ?a, n, bbp ~ and PSA and significantly lower values for bp* and chla:TSM than for Case 1 waters (N=123).

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