Baltic Sea nitrogen fixation estimated from the summer increase in upper mixed layer total nitrogen

We estimated nitrogen fixation from the increase in total nitrogen (N-2 gas excluded) in the upper 20 m during the summer biomass increase of heterocy stous filamentous cyanobacteria at the off-shore Landsort Deep station (BY3 1, 5 yr) and at 10 more stations in all major basins of the Baltic Sea prop er. Estimated fixation rates were 2.3-5.9 mmol N m(-2) d(-1), within the ra nge of reported direct measurements. Estimated total fixation in the Baltic Sea proper, 180-430 Gg N yr(-1) taking nitrogen settling loss and atmosphe ric deposition into account, was sufficient to sustain 30-90% of the June-A ugust pelagic net community production. Filamentous cyanobacteria (mostly A phanizomenon sp.) had low C:N and C:P ratios in spring 1998, indicating int ernal storage of both N and P. From early June, when their biomass growth s tarted, ratios rose gradually to the biomass peak in August and early Septe mber, when the C:N ratio (6.5 mol/mol) was close to the Redfield ratio, but the C:P ratio reached 420, almost four times Redfield. The C:N ratio of th e peak biomass was 1.5 times that in spring, and the C:P ratio was 13 times higher. The high C:P ratio indicates a smaller P demand by filamentous dia zotrophs than expected from Redfield ratios. Only a few percent of the P mi neralized daily is needed for filamentous cyanobacterial growth in summer. Filamentous cyanobacteria incorporated 16-41 mmol N m(-2) into biomass (C:N = 6.2) at BY31 in summer 1998. This was less than the estimated nitrogen f ixation, suggesting fixed N leaks from growing diazotrophs.