SHOOT HISTOGENESIS: THE EARLY EFFECTS OF GIBBERELLIN UPON STEM ELONGATION IN TWO ROSETTE PLANTS

Sachs , Roy M., Charles F. Bretz , and Anton Lang . (U. California, Los Angeles.) Shoot histogenesis: The early effects of gibberellin upon stem elongation in two rosette plants. Amer. Jour. Bot. 46(5): 376–384. Illus. 1959.—Within 24 hr. after the application of gibberellic acid (GA) to vegetative plants of biennial Hyoscyamus and of the long-day plant Samolus, a considerable increase in mitotic activity was observed in the pith, cortical, and vascular tissues of the rosette axis immediately below the apical meristem. As the treatment continued, the zone of cell division increased commensurate with the increase in length of the stem; the new cell divisions formed transverse walls predominantly and thus contributed to stem elongation. The cell contribution from the apical meristem was but a small fraction of the total produced by the subapical tissues, suggesting that the induced subapical mitotic activity is the main site of tissue development in the shoot. There was no evidence for cell elongation for at least 72 hr. after application of GA, and, hence, the initial increase in stem length was due solely to an increase in cell number. With regard to the general problem of shoot histogenesis, our data for the rosette plants and those for Xanthium and Chrysanthemum showing extensive cell division far below the apical meristem, are in full agreement with the studies by Bindloss (1942) with tomato, and support her conclusion that “. . . it is no longer possible to think that the chief center of cell division is in a relatively short zone 60 to 100 microns from the stem tip . . . and that cell division activity in the promeristem is not solely responsible for stem length.” On the contrary, the mitotic activity in the subapical regions is undoubtedly responsible for the major part of the cells found in the stem.