Tentacular and oral‐disc regeneration in the sea anemone, Aiptasia diaphana . I. Sequential morphological events in distal‐end restitution

The complete regeneration of a new oral‐disc and tentacles has been observed and described for Aiptasia diaphana . These structures are regenerated quite rapidly: seven to ten days at 20°C. At three days post‐amputation, the new primary, secondary, and tertiary tentacle buds begin to develop in direct association with the underlying primary, secondary, and tertiary septae (respectively) of the column, suggesting that the latter organize the form of the regenerating oral‐disc. Two days after amputation, the zooxanthellae of the presumptive oral disc arrange themselves into a ring which quite precisely delimits the area from which the tentacle buds will form. In spite of its suggestive proximity, this accumulation of algae plays no role in the induction of tentacle buds as was shown by studying regeneration in anemones which essentially lacked large quantities of these symbiotic algae. Cuts perpendicular to the longitudinal axis of the column result in an equal rate of tentacular regeneration around the entire circumference of the presumptive oral disc. Oblique amputations foster an asynchronous regeneration: the tentacle buds of the distal‐most area of the severed column are larger and regenerate much sooner than those of the proximal region. Similar results were obtained by studying anemones which were cut perpendicular to their longitudinal axes at different levels along the column. The data suggest that an oral‐aboral gradient exists concerning the time required for the initiation of tentacle budding and the rate of tentacle regeneration.