The size and function of the internal inorganic carbon pool of the foraminifer Amphistegina lobifera

The existence of an internal inorganic carbon pool in the perforate foraminifer Amphistegina lobifera, as suggested recently (ter Kuile and Erez 1987), has been established by direct measurements using a new ¹⁴C tracer method. The imperforate species Amphisorus hemprichii does not contain such a pool. The size of the pool in A. lobifera is proportional to its calcification rate and approximately equals the amount of carbon incorporated into the skeleton during 24 h. Time course experiments show that inorganic carbon (Ci) is photoassimilated at constant rates by the algal symbionts, that the pool is filled to maximum capacity in ca. 24 h, and that Ci incorporation into the skeleton starts only after the pool is filled up. During the chase phase of pulsechase experiments, all ¹⁴C initially residing in the pool is transferred to the skeleton, indicating that the pool serves for calcification and not for photosynthesis. Uptake of Ci into the pool occurs only in the light, indicating that energy may be required for this process. Furthermore, calculations of the Ci concentration inside the pool suggest that it is higher by 2 to 3 orders of magnitude compared to seawater concentration, suggesting that its accumulation is an energy dependent process.