摘要

Cryopreservation of embryogenic tissue is an essential storage step in genotype selection and seedling production through somatic embryogenesis. To date, immature conifer somatic embryos, at the proliferation step, were only able to tolerate ultra low temperature after prior cryoprotectant treatments. We report a novel cryopreservation method for conifer (interior spruce and Douglas-fir) embryogenic tissue focusing on the maturation step of developing embryos that forgoes such cryoprotectant treatment. In this study, somatic embryos matured on culture media containing abscisic acid (ABA) at 20A degrees C for 8 weeks. Typically, matured embryos in this manner were able to survive cryopreservation. The embryogenicity, however, decreased with increasing embryo maturity. Non-freezing low temperatures, such as 5A degrees C, not only inhibited cotyledon development but also maintained embryogenicity. Cryotolerance was successfully induced when embryos were matured (or pretreated) under 5A degrees C for a suitable culture period, typically 4-8 weeks. These embryos were able to survive a rapid cooling process and liquid nitrogen storage without the addition of any cryoprotectants. After cryopreservation, embryogenic tissue was recovered in both interior spruce and Douglas-fir. Embryo maturation tests indicated no difference in mature embryo yields with or without cryopreservation in interior spruce. The key factors inducing cryotolerance included ABA supplementation in culture media and low temperature pretreatment. Optimum combinations of these factors can result in high rates of tissue survival and high embryogenicity after cryopreservation.

  • 出版日期2011-7