Abstract

ABSTRACT Ulva lactuca , collected on the west coast of Sweden at the end of May, was able to utilize the HCO 3 − pool of seawater only through extracellular dehydration via carbonic anhydrase, followed by uptake of the CO 2 formed. A decrease in the CO 2 supply via this mechanism resulted in the gradual development of an additional method of HCO 3 − utilization, namely a direct uptake of HCO 3 − . Photosynthesis could then be supported by either a ‘HCO 3 − dehydration mechanism’ or a ‘HCO 3 − uptake mechanism’. Through selective inhibition of either of these mechanisms, the physiological properties of the other could be assessed. These properties suggest that the HCO 3 − uptake mechanism of U. lactuca is important under conditions when low concentrations of inorganic C, high pH and high external O 2 concentrations would limit photosynthesis supported by the HCO 3 − dehydration mechanism. Such conditions may occur during intense irradiation of the alga in rockpools or in shallow bays with low rates of water exchange. The results are discussed in relation to a possible coupling between mechanisms for inorganic C acquisition and cell structure (or even morphology) of green macroalgae. They also illustrate some necessary precautions when using Michaelis–Menten kinetics for estimations of V max and K 1/2 values.