THE CONTRIBUTION OF MICROORGANISMS TO PARTICULATE CARBON AND NITROGEN IN SURFACE WATERS OF THE SARGASSO SEA NEAR BERMUDA

Seawater samples were collected from the euphotic zone of the Sargasso Sea near Bermuda in August of 1989 and March-April of 1990. Microbial population abundances, chlorophyll concentration, particulate carbon and particulate nitrogen were measured. Calculations were performed to establish the relative and absolute importance of the various microbial assemblages. The choice of conversion factors (g C and N cell(-1), or g C and N mu m(-3)) for the microbial populations dramatically affected the estimation of ''living'' and ''detrital'' particulate material in the samples, and the relative importance of the various microbial groups. Averaged over all samples on either of the two cruises, microbial biomass constituted a greater proportion of the total particulate carbon and nitrogen during March-April (55% and 63%, respectively), than during August (approximate to 24% and 30%, respectively) using ''constrained'' conversion factors that were derived. Accordingly, detrital material constituted the bulk of the particulate material during August, but was similar to the amount of microbial biomass during March-April. The bacterial assemblage constituted the largest single pool of microbial carbon (35%) and nitrogen (45%) in the water, and a significant fraction of the total particulate carbon (approximate to 10-20%) and nitrogen (approximate to 15-30%). Phototrophic nanoplankton (microalgae 2-20 mu m in size) were second in overall biomass, and often dominated the microbial biomass in the deep chlorophyll maxima that were present during both cruises. The results temper recent assertions concerning the overwhelming importance of bacterial biomass in the oligotrophic Sargasso Sea but still support a major role for these microorganisms in the open ocean as repositories for carbon and nutrients.