SUBMICROSCOPIC STRUCTURE AND DEVELOPMENT OF THE CHLOROPLASTS OF PSILOTUM TRIQUETRUM

S un , C. N. (Washington U., St. Louis, Mo.) Submicroscopic structure and development of the chloroplasts of Psilotum triquetrum. Amer. Jour. Bot. 48(4): 311–315. Illus. 1961.—Aerial stems and stem tips of Psilotum triquetrum were used for the study of the fine structure and development of chloroplasts. The chloroplasts of Psilotum are ellipsoidal, with a principal axis of approximately 13 μ and a short axis of approximately 3.6 μ. They are bounded by a well‐defined outer membrane which consists of 2 layers. Within the laminar system of the stroma, the lamellated grana appear as sharply defined regions. The grana are about 1–1.6 μ in diameter. They are distributed more or less uniformly throughout the entire chloroplast with the exception of a very narrow peripheral zone. Relatively large, osmiophilic globules occur in groups in the stroma. The development of the Psilotum chloroplast may be summarized as follows: (1) in the undifferentiated proplastid, vesicles occur; (2) lamellated layers are formed by the fusion of vesicles; (3) the lamellae multiply by a process of thickening and splitting; (4) the grana are differentiated within a certain area by heterogeneous deposition of material and by further cleavage of the lamellae. Osmiophilic globules are present throughout the developmental stages, and increase in number and size with increase in age of the chloroplast.