At each station the light scattering properties of seawater (the scattering and backscattering coefficients, and volume scattering function) and salinity were measured in situ in the surface layer (down to 1.5 m depth; see below for details). Samples of surface seawater were also taken with 20 L Niskin bottles for laboratory measurements of light absorption properties (absorption coefficients of suspended particles, and coloured dissolved organic matter (CDOM)) and for analysis of different biogeochemical CT99021 molecular weight properties of suspended matter. The concentration of suspended particulate matter, SPM (units are g m−3), defined
as the dry mass of particles per unit volume of water, was determined using a standard gravimetric technique. We used specially prepared GF/F filters (25 mm in diameter) pre-combusted for 4 h at 450°C, pre-washed with pure deionized and particle-free water (to prevent the loss Selleckchem GDC 0449 of filter material during the filtration of the main sample), then dried and pre-weighed. Measured volumes of seawater (between 150 and 1500 mL) were filtered immediately after sample collection. At the end of filtration, the filters were rinsed with about 60 mL of deionized water to remove sea
salt. Separate tests showed that such rinsing volumes efficiently removed sea salt from southern Baltic Sea water, which has a relatively low salinity (the salinity of our samples ranged from 0.6 to 8.3 PSU (av. = 6.9 PSU)). The filters with their particle load were dried and stored in a freezer for later analysis. The dry mass of particles collected on the filters was measured with a Radwag WAX110 microbalance (resolution 0.01 mg). Three replicate filters were measured in each sample, with the reproducibility generally within ± 17%. Having been analysed for SPM concentration, the filters were
combusted for 4 h at 450°C to remove the organic particle fraction (loss on ignition (LOI) technique; see e.g. Pearlman et al. (1995)), then reweighed. The difference in weight before and after combustion yielded the concentration of particulate organic matter (POM) [g m−3]. The reproducibility of replicate measurements see more was generally within ± 16%. Particles were also collected at sea by filtration using separate sets of pre-combusted GF/F filters (three replicates per experiment) for the analysis of the particulate organic carbon (POC) concentration [g m−3]. The sample filters were dried after filtration and stored until analysis by high temperature combustion (Perkin Elmer CHN 2400). The reproducibility of the POC replicate measurements was generally within ± 19%. Samples were also taken for the analysis of phytoplankton pigment concentrations. Particles collected on GF/F filters were stored in liquid nitrogen and later analysed on land by HPLC (see Stoń-Egiert & Kosakowska 2005, Stoń-Egiert et al. 2010). More than 20 different pigments were identified with this technique.