1990) cells
and diatoms with higher intracellular pigment concentrations owing to nutrient enrichment. Another reason could be the relative contribution of non-photosynthetic pigments to total absorption ( Bricaud et al., 1995, Ciotti et al., 1999 and Vijayan et al., 2009). These observations are supported by reports that nutrient enrichment leads to an increased dominance of large phytoplankton ( Chisholm 1992) and that the increase in cellular Chl a concentration with high nutrient availability can lead to a decrease in a*ph(λ) ( Sosik & Cobimetinib in vivo Mitchell 1995). The green Noctiluca bloom causes a greenish discolouration as it harbours a green, flagellated endosymbiont Pedinomonas noctilucae (Subramanian) Sweeny ( Ostroumoff, 1924 and Sweeney, 1971). Apart from Chl a, the major pigments of P. noctilucae are
neoxanthin, violaxanthin, zeaxanthin, antheraxanthin, lutein and Chl b ( Furuya & Lirdwitayaprasit Sunitinib mouse 2000). The inverse relation between a*ph(440) and Chl a can also be attributed to the higher ratios of non-photosynthetic pigments like neoxanthin, zeaxanthin and lutein to TChl a. Compared to the EW transect, the surface Chl a concentrations of the NS transect were generally lower (< 5 μg l− 1) and a*ph(λ) values were high (≥ 0.003 m2(mg TChl a)− 1) for most of the stations. The NS transect stations had high ratios of zeaxanthin/TChl a, suggestive of a high contribution of smaller algal groups like Cyanophyceae, which absorb mainly in the blue region ( Bidigare et al. 1989b). The prominent secondary peak observed at 480 nm
at the surface at stns. MB4 and MB5 ( Figure 8) was due primarily to zeaxanthin ( Moore et al. 1995). In the EW transect there was a predominance of dinoflagellates and diatoms, as evidenced by the HPLC pigment signatures. There were prominent absorption peaks and shoulders due to Chl a (672 and 438 nm), Chl c (630–462 nm), peridinin (535–540 nm) and diadinoxanthin (495 nm) ( Halldal, 1970, Prézelin et al., 1976 and Yentsch, 1980). Similar characteristic peaks of absorption spectra had been reported earlier by Balch & Haxo (1984) for Noctiluca miliaris Suriray during bloom conditions. The zeaxanthin pigment, which has a high Fludarabine absorption between 454 and 480 nm, had a linear relation with a*ph(440). The secondary peak in the blue and red region may be due to the enhanced contribution of Chl b ( Bidigare et al. 1990), which in the present study is ascribed to the abundance of chlorophytes. As the numerical abundance of chlorophytes was low, based on the pigment signatures of P. noctilucae ( Furuya & Lirdwitayaprasit 2000), the Chl a allocated to chlorophytes were ascribed to P. noctilucae ( Furuya et al. 2006). A small peak found at 462 nm at stn. MB9 is ascribable to Chl c ( Barlow & Lamont 2012). At stns. MB5 and MB12 the surface NPP index (≥ 0.6) is the cumulative contribution of high ratios of photoprotective pigments like zeaxanthin, lutein and neoxanthin to TChl a.