NITRATE AND NITRITE UPTAKE BY FREE-LIVING AND IMMOBILIZED N-STARTED CELLS OF PHORMIDIUM-LAMINOSUM

N-starved free-living and polyvinyl-immobilized cells of Phormidium laminosum (strain OH-1-pCl1) have been investigated in relation to their nitrate and nitrite uptake characteristics. N-deficient cells showed higher inorganic N-uptake rates than N-sufficient ones. The photosynthetic activities of the cells decreased progressively with the time of N-starvation. N-starved cells produced high amounts of exopolysaccharides, which appear to assist the immobilization process. Inorganic N-uptake by N-starved cells occurred in both light and dark under aerobic conditions. In anaerobiosis light was required for the uptake, confirming that the necessary energy might perhaps be derived from the respiratory electron transport chain under aerobiosis. Ammonium inhibited nitrate uptake but did not affect the uptake of nitrite. Initial nitrate and nitrite uptake rates were temperature-dependent and yielded hyperbolic curves when plotted against the N source concentration, indicating the existence of saturable transport system(s).