Analyses to determine the role of the megagametophyte and other seed tissues in dormancy maintenance of yellow cedar (Chamaecyparis nootkatensis) seeds; morphological, cellular and physiological changes following moist chilling and during germination

Yellow cedar (Chamaecyparis nootkatensis) seeds exhibit prolonged dormancy following their dispersal from the parent plant. Embryos excised fully from their enclosing seed tissues exhibit 100% germination, indicating that the seed tissues enclosing the embryo (the testa, remnants of the nucellus and the megagametophyte) play an inhibitory role and prevent radicle emergence. As part of an assessment of the role of seed tissues in the dormancy mechanism of yellow cedar seeds, light microscopy was used to examine changes within the major structures of the seed following a 90 d war (26C)/cold (4C) moist treatment ('stratification') and during germination. In the micropylar tip of the seed, the nucellus forms a hard nucellar cap covering the radicle. The nucellar cap is composed primarily of degenerated cells; histological staining with ruthenium red revealed a predominance of pectins. There were no obvious cellular or morphological differences (detected by light microscopy) between mature seeds subjected to a 3 d soak and seeds subjected to a 3 d soak and the 90 d dormancy-breaking treatment. However, just prior to germination there was an outward projection of the nucellar cap through the micropyle, which appeared to be caused by the extension of highly folded proteinaceous strands lying immediately in front of the radicle. When the testa was removed, the embryo enclosed within the intact megagametophyte was incapable of germination. If, however, the megagametophyte surrounding the embryo was slit or the embryo surrounded by an intact megagametophyte was subjected to a 3d rinse in water, some germination occurred, perhaps as a result of an enhanced release of inhibitors from the megagametophyte. After stratification, dormancy of yellow cedar seeds is broken; concurrent with dormancy breakage, there was a mechanical weakening of the megagametophyte. The embryo also underwent changes that included an increase in turgor and a reduced sensitivity to highly negative osmotic potential. It is concluded that coat-imposed dormancy of yellow cedar seeds is enforced by mechanical restraint of the megagametophyte as well as a leachable chemical inhibitor (most probably ABA).