PHYTOPLANKTON COMMUNITY STRUCTURE ON THE FAROE SHELF 97 June-July 1995, the nitrate samples were analysed on board the research vessel. On the monitoring station S the samples from May and June were frozen immediately af- ter sampling. The other samples were pre- served in chloroform, stored in a refrigera- tor and analysed 5-30 days after sampling. Nitrate and nitrite were mc asured automati- cally and silicate was analysed manually using the methods described by Grasshoff et al. (1983). In situ fluorescence was measured with a Sea Tech fluorometer interfaced to the CTD and fluorescence was calibrated from selected samples which were analysed for chlorophyll a. The chlorophyll a measure- ments were carried out using the methods described by Baltic Marine Biologists (1979) with a difference in that the ho- mogenisation was carried out with a Soniprep 140 ultrasound homogeniser. When computing the results, the equation of Jeffrey and Humphrey (1975) was ap- plied. The algae were preserved in 0.4% neu- tralised formaldehyde and were counted in 2, 5 or 10 ml of seawater after overnight settlement using an inverted microscope. Results The primary production in the Faroe Shelf water started earlier in spring and also de- clined earlier in autumn than outside the front (Fig. 2). The phytoplankton biomass during spring and summer was significant- ly higher in the Faroe Shelf water and in the frontal region than outside the front and at the same time the nutrient concentrations decreased much in this water and were much lower in the shelf water than in the open area outside the front. The highest phytoplankton biomass in spring was found in the northern region of the shelf water (Fig. 3a) and the spring bloom, apparently, has started in this re- gion. The primary production clearly af- fected the nutrient concentrations and they decreased very much in this area (Fig. 3.b). The results indicate that the water masses in the northern region were more isolated than in the southern region. This is also supported by the nutrient distribution in mid summer (Fig. 3c). The nitrate concen- trations in the shallowest part in the northern region of the Faroe Shelf were be- tween 2 and 3 /rmol F'. The concentrations in the southern region were more than twice as high. Both the nutrient gradients and the distri- bution pattern of the phytoplankton bio- mass were related to the hydrographic fea- tures (Fig. 4). The north-westem transect showed strong horizontal density gradients in the frontal area and very high phyto- plankton biomass above the pycnocline. However, in the eastern region, there was weaker thermal stratification, stronger ver- tical gradients, and low phytoplankton bio- mass outside the front. The concentrations of nutrients in the central region of the shelf water (station S) decreased dramatically during spring and early summer 1995 (Fig. 5). The primary production in particular affected the nitrate concentrations, which decreased rapidly during early May and reached zero around mid July in the shallow areas. Only at the very beginning of the sampling period (ear-

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