Development of Aspceptic Seedling by In Vitro Germination in Lacquer Tree Seed

옻나무 종자의 기내 발아에 의한 무균묘 육성

  • Published : 2000.03.01

Abstract

Lacquer tree can be proliferated by root or stem cutting, and seed. In case of proliferation by seed, however, the germination rate is very low. Thus, the present study was carried out to obtain aspceptic lacquer plant in vitro from seed because natural tissue culture was highly defiled by unknown fungi and bacteria. First seed grading on distilled water was 50.7% and second seed grading was 20.8% after 98% sulfuric acid treatment for 2 hours. Removal of inner seed coat was higher with 32.4% than non-removal of outer seed coat and removal outer seed coat in rooting rate. In germination rate according to pre-treatment, growth regulators were not effective at all, but sulfuric acid was effective a little with 3%. Removal outer seed coat was increased about 4%, that germinated about 10% in MS medium supplemented with 1.0mg/L BA and 0.05mg/L NAA, 1.0mg/L BA. Lacquer tree seeds germinated after 10 days in MS medium, and aspceptic seedling of lacquer tree were obtained after 3 weeks in vitro. Germination rate, however, was lower about 10%.

옻나무 묘목대량증식법의 하나로 조직배양 방법을 이용하여 기내 유식물체를 다량으로 증식함으로써 옻나무 증식의 효율성을 높이기 위하여 기내 무균묘를 얻고자 실시하였다. 비중 1.0으로 선종한 결과 1차선종은 평균 50.7%의 선종율을 보였고, 98% sulfuric acid에 2시간 교반 후 2차로 선종한 결과 선종율은 20.8%였다. 발근율은 외종피를 함유한 종자(5.4%) 보다는 외종피를 제거하거나(18.3%) 내종피를 제거한 종자(32.4%)가 높았다. 전처리에 따른 종자의 발아율은 생장조절물질 처리에 의한 효과가 인정되지 않았으며, 각 처리별 유의수준도 인정되지 않았으나 sulfuric acid를 처리했을 경우 발아율이 3%로써 생장조절물질 처리보다는 약간 효과적인 것으로 나타났다. 외종피를 제거하면 발아율은 약간 높게 나타났는데, 생장조절물질을 첨가함으로써 약 4%정도 향상되었다. 특히 BA 1.0mg/L와 NAA 0.05mg/L의 혼용처리와 BA 1.0mg/L 단독처리가 10% 내외의 발아율을 보였다. 옻나무 종자는 배지에 치상한 후 약 10일 만에 정상적으로 발아하였고, 치상 후 약 3주만에 본엽이 출현한 정상적인 무균묘를 획득할 수 있었으나 발아율이 10%내외에 불과하여 매우 저조하였다.

Keywords

References

  1. 산림 옻의 채취법 김영련
  2. 新制種子學 崔鳳鎬;洪丙憙;姜光熙;金鎭淇;金碩鉉
  3. 忠北大 論文集 v.8 옻나무 優良品種選拔에 關한 硏究(第二報) 鄭寅杓
  4. 林業種苗學 權雷澤;鄭玧洙;李相植
  5. J. Amer. Soc. Hort. Sci. v.116 Low temperature germination of celery seeds for fluid drilling Furutani S.C.;Zandstra B.H.;Price H.C.
  6. J. Amer. Soc. Hort. Sci. v.116 Seed dormancy in Eastern redbud (Cercis canadensis) Geneve R.L.
  7. Bot. Rev. v.31 Organ formation in vitro as applicable to forest tree propagation Haissig B.E.
  8. Can. J. Bot. v.53 Regulation of seed dormancy in Elaeagnus umbellata by endogenous growth substances Hamilton D.F.;Carpenter P.L.
  9. Cereal Chem. v.60 Factors affecting water uptake of soybeans during soaking Hsu K.H.;Kim C.J.;Wilson L.A.
  10. Ann. Sci. For. v.31 The application of plant tissue culture to the study of several problems of tree physiology Jacquiot C.
  11. Res. Rept. RDA(Agri. Institutional Cooperation) v.33 The characteristics of allegic materials from Korean lacquer tree sap-Preperative analysis of lacquer tree sap- Jung D.K.;Song H.K.;Kim H.
  12. Plant Growth Regulation v.11 Seed coat structure and dormancy Kelly K.M.;Staden J.;Bell, W.E.
  13. Physiologia. Plantarum v.19 Breaking of dormancy in Xanthium seed by kinetin midiated light and DNA-dependent RNA synthesis Khan A.A.
  14. Science v.171 Cytokinin : Permissive role in seed germination with other hormones Khan A.A.
  15. Nature v.216 Antagonism between cytokinins and germination inhibitors Khan A.A.
  16. Physiologia. Plantarum v.21 Cytokinin reversal of abscisic acid inhibition of growth and -amylase synthesis and growth in barley seeds Khan A.A.
  17. Plant Physiol. v.43 Inhibition of gibberellic acid-induced germination by abscisic acid and reversal by cytokinins Khan A.A.
  18. Physiologia. Plantarum v.22 Cytokinin-inhibitor antagonism in the hormonal control of -amylase synthesis and growth in barley seeds Khan A.A.
  19. Discovery of a new role for cytokinins in seed dormancy and germination Khan A.A.;Heit C.E.;Waters E.C.;Anojulu C.C.;Anderson L.
  20. New Zealand J. For. Sci. v.4 Tissue culture as a method for vegetative propagation of forest trees Konar R.N.;Nagmani R.
  21. Ann. Rev. Plant Physiol. v.25 Control of seed germination Mayer M.A.;Shain Y.
  22. Physiologia Plantarum v.15 A revised medium for rapid growth and bioassay with tobacco tissue cultures Murashige T.;Skoog F.
  23. Plant Physiol v.59 Transient changes during soybean imbition Parrish D.J.;Leopold A.C.
  24. Physiologia Plantarum v.28 Changes in dedogenous growth regulators in loblolly pine seeds during the process of stratification and germination Paul K.B.;Patel C.S.;Biswas P.K.
  25. Kor. J. Plant Tissue Cult. v.1 Control of organogenesis in tissue culture Soh W.Y.;Cho D.Y.
  26. Plant Physiol. v.43 Abscisic acid level and seed dormancy Sondheimer E.;Tzou D.;Galson E.
  27. Handb. Planzenphysiol. v.15 no.2 Endogenous inhibitors in seed germination and dormancy Wareing P.F.
  28. HortScience v.18 Hormonal control of pepper seed germination Watkins J.T.;Cantliffe D.J.
  29. Nature v.219 Root and shoot initiation in aspen callus cultures Wolter K.E.