Korean Journal of Plant Resources (한국자원식물학회지)

The Plant Resources Society of Korea (한국자원식물학회)
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Dormancy and Germination Characteristics of Alpine Modest Primrose (Primula modesta var. hannasanensis T.Yamaz.) Seeds

설앵초의 종자 휴면과 발아특성

  • Cho, Ju Sung (Quality Control & Seed Tech Team, Quality Assurance Department, Nongwoo Bio CO., LTD.) ;
  • Lee, Cheol Hee (Brain Korea 21 Center for Bio-Resource Development, Division of Animal, Horticultural, and Food Sciences, Chungbuk National University)
  • 조주성 ((주)농우바이오 품질관리기술팀) ;
  • 이철희 (충북대학교 축산.원예.식품공학부 생물건강소재산업화사업단)
  • Received : 2016.07.13
  • Accepted : 2017.04.18
  • Published : 2017.08.31
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Abstract

This research was performed to develop mass propagation method of Alpine modest primrose (Primula modesta var. hannasanensis T.Yamaz.) for improving the conservation and utilization of the species. Seeds were collected on August 2011 in Jeju-city and well-selected seeds were dry-stored at $4{\pm}1.0^{\circ}C$. Seed size ranged $0.44{\pm}0.07{\times}0.61{\pm}0.04mm$, and weight of 1,000 seeds was $51.78{\pm}0.021mg$. Thus the seed was classified as 'dwarf seeds'. As the result of dormancy characteristics, moisture content of freshly matured seeds increased rapidly by water-soaking treatment and seeds did not germinate at $20^{\circ}C$ for 4 weeks under the light condition. Therefore, seeds were estimated to have physiological dormancy. Germination conditions of dry-stored seeds were found to be $20^{\circ}C$ and light condition, and seeds did not germinated under dark condition regardless of all temperature regimes. Therefore, Alpine modest primrose seed was considered as photoblastic type. Percent germination (PG) and germination energy (GE) were greatly improved by soaking the seeds in $GA_3$ and kinetin for 24 hours. Especially, 200~500 mg/L $GA_3$ treatment resulted in the highest PG (95.5%) and GE (98.3%). So, chemical treatment such as $GA_3$ was thought to be a useful method for raising seedling uniformly.

본 연구는 설앵초의 종 보존과 활용성 증대를 위해 종자를 이용한 대량 번식법을 개발하고자 수행되었다. 종자는 2011년 제주도 일대에서 채종하여 정선한 다음 $4{\pm}1.0^{\circ}C$에서 건조 상태로 저장하면서 연구에 사용하였다. 종자의 크기는 $0.44{\pm}0.07{\times}0.61{\pm}0.04mm$, 1,000립중은 $51.78{\pm}0.021mg$이었으며, 미세종자로 분류되었다. 설앵초 종자의 휴면특성은 생리적 휴면(physiological dormancy)성을 갖는 것으로 판단되었다. 한편 종자는 광조건에서 발아가 되는 광발아성 종자로, 적정온도는 $20^{\circ}C$로 나타났다. $GA_3$는 조자의 휴면타파 및 발아력 향상에 크게 효과가 있었는데, 농도가 높아줄수록 그 효과가 크게 나타났다. 특히 $GA_3$ 200~500 mg/L 처리구에서 발아율 및 발아세가 90% 이상으로 매우 높게 조사되었다.

Keywords

References

  1. Abe, S., M. Okada, K. Kunishi and H. Higuchi. 1991. Dictionary of floriculture. Asakura Shoten, Japan.
  2. Baskin, J.M. and C.C Baskin. 2004. A classification system for seed dormancy. Seed Sci. Res. 14:1-16.
  3. Baskin, J.M., C.C., Baskin and D.M., Spooner. 1989. Role of temperature, light and date seeds were exhumed from soil on germination of four wetland perennials. Aquat. Bot. 35:387-394. https://doi.org/10.1016/0304-3770(89)90009-0
  4. Bewley J.D. and M. Black. 1994. Seeds-physiology of development and germination. 2nd ed. Plenum Press, NY, USA.
  5. Chavagnat, A. and B. Jeudy. 1981. Study of the germination in the laboratory of seeds of Primula obconica. Seed Sci. Technol. 9:577-586.
  6. Cho, J.S., H.J. Kwon and C.H. Lee. 2016a. Seed germination and dormancy breaking of Thalictrum rochebrunianum var. grandisepalum (H. Lev.) Nakai. Korean J. Plant Res. 29: 339-346. https://doi.org/10.7732/kjpr.2016.29.3.339
  7. Cho, J.S., J.H. Jeong and C.H. Lee. 2016b. The effects of environmental conditions and chemical treatments on seed germination in Astilboides tabularis (Hemsl.) Engl. Korean J. Hortic. Sci. Technol. 34:351-359.
  8. Cho, J.S., J.H. Jeong, S.Y. Kim and C.H. Lee. 2014a. Temperature, light and chemical treatment promoting seed germination of Meterostachys sikokiana (Makino) Nakai. Flower Res. J. 22:54-59. https://doi.org/10.11623/frj.2014.22.2.3
  9. Cho, J.S., J.H. Jeong, S.Y. Kim, J.Y. Lee and C.H. Lee. 2014b. Several factors affecting seed germination of Hydrangea petiolaris Siebold & Zucc. Korean J. Plant Res. 27:534-539. https://doi.org/10.7732/kjpr.2014.27.5.534
  10. Fukai, S. and M. Oe. 1990. The characteristics of Primula japonica L. native to Osaka prefecture. Bulletin of the Osaka Agricultural Research Center, Osaka, Japan.
  11. Jang. B.K., J.S. Cho and C.H. Lee. 2016. Effect of environmental conditions and chemical treatments on seed germination of Astilbe koreana (Kom.) Nakai. Korean J. Plant Res. 29:235-240. https://doi.org/10.7732/kjpr.2016.29.2.235
  12. Korea Biodiversity Information System (KBIS). 2016. .
  13. Lee, T.B. 2003. Coloured flora of Korea. Hyangmoonsa Publishing Co., Seoul, Korea.
  14. Martin, A.C. 1946. The comparative internal morphology of seeds. Am. Midl. Nat. 36:513-660. https://doi.org/10.2307/2421457
  15. Ministry of Environment (ME). 2007. 3rd. Natural environment survey in flora. Natl. Inst. Environ. Res, Incheon, Korea (in Korean).
  16. Ministry of Environment (ME). 2011. Endemic species of Korea. Natl. Inst. Environ. Res, Incheon, Korea (in Korean).
  17. Song, J.S. and J.S. Lee. 2002. Dormancy and germination characteristics of seed and plant of Primula sieboldi. J. Korean Soc. Hort. Sci. 43:91-94.
  18. Species Korea (SK). 2016. http://species.nibr.go.kr/home/index.do
  19. Washitani, I. and H. Kabaya. 1988. Germination responses to temperature responsible for the seedling emergence seasonality of Primula sieboldi E. Morren in its natural habitat. Ecol. Res. 3:9-20. (Abstr.) https://doi.org/10.1007/BF02348691