TIMING AND LIGHT REGULATION OF APICAL MORPHOGENESIS DURING REPRODUCTIVE DEVELOPMENT IN WILD‐TYPE POPULATIONS OF ACETABULARIA ACETABULUM (CHLOROPHYCEAE)

In the giant unicellular green alga, Acetabularia acetabulum (L.) Silva, development is altered by light. For example, blue light induces the vegetative apex to produce whorls of hairs that encircle the stalk and, later, blue light may trigger reproductive onset. The two goals of this study were to determine when changes in apical shape occur during formation of the reproductive structure, or “cap,” and to determine which of these differentiation events require light. The first visible indication of cap initiation was a rounded swelling of the apex, which we call a knob‐shaped apex (time = 0 hours). Subsequent changes in shape were a hyaline, knob‐shaped apex, reached by 50% of the population 3 h later, and the formation of a whorl of unilobed chambers at 16 h. These chambers became bilobed at 33 h and trilobed at 34 h. Successive sets of cap hairs grew from protuberances found on the surface of the uppermost lobes of the chambers (superior corona). After knob, the remainder of cap formation was largely independent of light. However, the initiation of each set of cap hairs required light. If a recently initiated cap was amputated, the individual recapitulated development, repeating a portion of vegetative morphogenesis (i.e. it made whorls of sterile hairs) before initiating a new cap. The developmental sequence between amputation and initiation of a new cap required light. A model for light‐regulated changes in shape at the apex of Acetabularia acetabulum, which integrates whorl and cap formation and encompasses both vegetative and reproductive development of this organism, is presented.