2010
DOI: 10.1098/rsif.2010.0503
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Retrieval of phytoplankton size from bio-optical measurements: theory and applications

Abstract: The absorption coefficient of a substance distributed as discrete particles in suspension is less than that of the same material dissolved uniformly in a medium-a phenomenon commonly referred to as the flattening effect. The decrease in the absorption coefficient owing to flattening effect depends on the concentration of the absorbing pigment inside the particle, the specific absorption coefficient of the pigment within the particle, and on the diameter of the particle, if the particles are assumed to be spher… Show more

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Cited by 29 publications
(18 citation statements)
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“…Differences were more pronounced for the other locations. Absorption in this wavelength range has been used to estimate size class (Roy et al, 2011). At these wavelengths, the absorption is dominated by chlorophyll-a and the influence of other pigments is low.…”
Section: Methods Based On Phytoplankton Absorptionmentioning
confidence: 99%
“…Differences were more pronounced for the other locations. Absorption in this wavelength range has been used to estimate size class (Roy et al, 2011). At these wavelengths, the absorption is dominated by chlorophyll-a and the influence of other pigments is low.…”
Section: Methods Based On Phytoplankton Absorptionmentioning
confidence: 99%
“…The chemotaxonomic approach provides a means to quantify phytoplankton taxonomic composition utilizing a set of biomarker pigments (e.g., Jeffrey et al, 1997;Roy et al, 2011). Claustre (1994) and Vidussi et al (2001) further proposed to utilize groupings of biomarker pigments to estimate phytoplankton size structure.…”
Section: Algorithm Validationmentioning
confidence: 99%
“…They estimate PSC utilizing empirical relationships with phytoplankton absorption-spectra ratios and the particulate backscatter slope. Roy et al (2011) developed a semi-analytical algorithm based on phytoplankton absorption at a red wavelength (676 nm) to compute the equivalent spherical diameter of phytoplankton. Roy et al (2013) further extended the algorithm to heterogeneous phytoplankton populations, where they utilized phytoplankton absorption at 676 nm to compute the PSD corresponding to the phytoplankton cells alone, and derived the power-law exponent/slope of the phytoplankton size spectrum.…”
Section: 1mentioning
confidence: 99%
“…Another class of algorithms relies on various spectral features. The PHYSAT algorithm exploits second-order anomalies of reflectance spectra Alvain et al, 2008), whereas several other algorithms are based on either absorption (Bracher et al, 2009;Ciotti and Bricaud, 2006;Mouw and Yoder, 2010;Roy et al, 2011;Roy et al, 2013), or backscattering (Kostadinov et al, 2009;Kostadinov et al, 2010;Kostadinov et al, 2016), or a hybrid of absorption and backscattering (Fujiwara et al, 2011). Brewin et al (2011) conducted the first systematic inter-comparison of PFT algorithms designed to identify "dominant" PFTs in the oceans.…”
Section: Introductionmentioning
confidence: 99%