SEASONAL AND EXPERIMENTALLY INDUCED CHANGES IN THE ULTRASTRUCTURE OF CHLOROPLASTS OF PINUS-SILVESTRIS

The ultrastructure of chloroplasts in mesophyll cells of P. silvestris was examined with EM. Secondary needles were regularly sampled from a tree in a natural stand for 1 yr. Primary needles from 1 yr old seedlings exposed to frost hardening and dehardening conditions in a controlled environment chamber were also studied. These seedlings were exposed to 8 or 55 W m-2. All needles were put in fixative at the different sampling dates and stored in a refrigerator until they were prepared for EM at the end of the experimental period. During the summer the chloroplasts were symmetrically shaped and heavily loaded with starch. The membrane systems were well developed and consisted of grana and stroma thylakoids. In autumn and during early artificial frost hardening the starch content was reduced, the chloroplasts appeared amoeboid and membrane-free stroma regions were seen. Later the chloroplasts became swollen and aggregated in one part of the cell. Starch was lost and the chloroplasts aggregated earlier at 8 W m-2 than at 55 W m-2. During the winter the stroma thylakoids were first reduced in number and later even the grana thylakoids were damaged, resulting in mostly disorganized single membranes. The chloroplast envelope disappeared. In spring and early summer the chloroplasts migrated to the proximity of the cell walls. The membrane systems were reorganized and starch accumulated. During the first days of artificial dehardening the photosynthetic membranes were severely damaged, especially at 55 W m-2; soon new membranes were formed. Starch accumulated earlier at 55 than at 8 W m-2. The reported ultrastructural variations are discussed in relation to functional and biochemical fluctuations caused by the season or by artificial variations in the climate as demonstrated earlier.