(2003a,b), who report on the variability ranges of absorption and

(2003a,b), who report on the variability ranges of absorption and scattering coefficients in relation to the concentration of suspended particulate matter (SPM) and the concentration of phytoplankton pigments in different coastal waters around Europe (including the south-western Baltic Sea). Further field studies in the optically complex case II waters have been carried out by Green et al. (2003) (the New England shelf), click here Gallegos et al. (2005) (a shallow embayment in Chesapeake Bay), McKee & Cunningham (2006) (Irish Sea shelf waters), Oubelkheir et al. (2006) (tropical coastal waters of eastern Australia), Vantrepotte et al. (2007) (eastern English

Channel), Snyder et al. (2008), Stavn & Richter (2008) (coastal waters off New Jersey, the northern Gulf of Mexico, and Monterey Bay) and Woźniak et al. (2010) (southern California coastal waters). These examples show that the question of suspended matter optical properties in case II waters is still an open scientific problem. As far as the Baltic Sea (another case II water body) is concerned, different aspects of the penetration of light into its waters have been studied by various authors for the past 50 years (see Dera & Woźniak (2010) and the list of the works cited there), but even so, the subject of suspended matter optical properties in the Baltic has not received the attention it merits. In this

study we report on experimental data collected MK0683 mouse in the southern part of the Baltic Sea. Our primary objective is to examine the variability in the inherent optical properties of suspended matter (the light absorption coefficients of particles, the absorption coefficients of phytoplankton, and the scattering and backscattering coefficients of particles) and their relations with key biogeochemical characteristics describing particle populations (such as concentrations eltoprazine of suspended

particulate matter (SPM), particulate organic matter (POM), particulate organic carbon (POC) and chlorophyll a (Chl a)). This has been done mainly through statistical analyses of the variability of constituent-specific IOPs (i.e. IOPs normalized to certain concentrations of constituents) and also by deriving simple statistical bestfit equations parameterizing the IOPs in terms of the concentrations of selected seawater constituents. In addition, we discuss the possibility of retrieving biogeochemical characteristics from particle IOPs: with a set of simple formulas and procedures, measured particulate IOPs can be used to work out a rough estimate of suspended matter biogeochemical characteristics. The optical and biogeochemical properties of suspended matter in the surface waters of the southern Baltic Sea were examined. The empirical data were gathered at over 300 stations during 15 short cruises on board r/v ‘Oceania’ between August 2006 and September 2009 (in late winter and spring (March, April, May) and in late summer and autumn (August, September, October, November)).

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