Nitrate-limited and glucose-limited chemostat cultures of Petunia hybrida cells were compared at a specific biomass (+extracellular product) formation rate of 0.0042 C . mol/C . mol h. The composition of the biomass differed considerably in both culture types. The N/C (mol/mol) ratio in the biomass was almost four times lower in the nitrate-limited than in the glucose-limited cultures. On a dry weight basis (g/g DW) the biomass in the nitrate-limited cultures contained about 2.5 times less ions and protein N and about 2.5 times more carbohydrates than the biomass in the glucose-limited cultures. On a fresh weight basis (mmol/g FW) the biomass in nitrate-limited and glucose-limited cultures differed mainly in carbohydrate content. The yields of biomass on glucose and oxygen were generally higher in the nitrate-limited than in the glucose-limited cultures. Average values for these parameters were 0.27 C . mol biomass/C . mol glucose and 0.42 C . mol biomass/mol O-2 in the glucose-limited cultures and 0.34 C . mol biomass/C . mol glucose and 0.55 C . mol biomass/mol . O-2 in the nitrate-limited cultures. On a C . mol basis the total respiration was about 25% and the maximally attainable cytochrome pathway activity (measured in the presence of hydroxamate) about 30% higher in the glucose-limited than in the nitrate-limited cultures. The maximally attainable activity of the alternative pathway (measured in the presence of KCN) was significantly lower in the glucose-limited cultures. On an organic N (approximate to protein) basis all respiratory parameters were significantly higher in the nitrate-limited cultures. In the presence of the respiratory uncoupler carbonyl cyanide p-trifluoromethoxy phenylhydrazone (FCCP) and excess glucose, cellular respiratory activity shows its maximal activity; under these conditions the total respiration increased more than 150% in the glucose-limited and only 30% in the nitrate-limited cultures. It is suggested that glucose-limited cultures are able to react more flexibly to changes in the environmental conditions than nitrate-limited cultures.