한국작물학회지 (KOREAN JOURNAL OF CROP SCIENCE)

  • 제55권1호
  • /
  • Pages.31-37
  • /
  • 2010
  • /
  • 0252-9777(pISSN)
  • /
  • 2287-8432(eISSN)
한국작물학회 (The Korean Society of Crop Science)
권호 표지

심지양액재배 '대지'의 씨감자 크기에 따른 포장 생육과 수량

Effects of Tuber Size on Field Growth and Yield of 'Dejima' Potatoes Produced through Wick-based Hydroponics

  • 김찬우 (제주대학교 생명자원과학대학) ;
  • 송창길 (제주대학교 생명자원과학대학) ;
  • 강봉균 (제주대학교 생명자원과학대학) ;
  • 전용철 (제주대학교 생명자원과학대학) ;
  • 강영길 (제주대학교 생명자원과학대학)
  • Kim, Chan-Woo (College of Applied Life Sciences, Jeju National University) ;
  • Song, Chang-Khil (College of Applied Life Sciences, Jeju National University) ;
  • Kang, Bong-Kyoon (College of Applied Life Sciences, Jeju National University) ;
  • Jeun, Young-Chull (College of Applied Life Sciences, Jeju National University) ;
  • Kang, Young-Kil (College of Applied Life Sciences, Jeju National University)
  • 투고 : 2009.10.26
  • 발행 : 2010.03.31
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초록

심지양액재배 씨감자의 크기가 노지포장에서의 생산성 반응을 검토하기 위하여 봄재배에는 <1, 1~3, 3~5, 5~7, 7~10, 10~20, 20~30, 30~50, 50~80 g의 심지재배 씨감자를 심었고, 가을재배에는 봄재배의 0.2~1과 50~80 g의 처리를 제외하고 7, 15 g의 분무경에서 생산된 씨감자를 처리로 추가하여 생육및 수량을 조사하였다. 출현율은 두 재배시기 모두 씨감자의 크기가 10~20 g까지에는 씨감자가 클수록 크게 증가하였으나, 10~20 g 이상의 씨감자 파종구에서는 88% 이상으로 더 이상 유의성 있게 증가되지 않았다. 출현일수는 봄재배의 경우 34일 내외로 씨감자의 크기에 따른 유의한 차이가 없었으나, 가을재배에서는 씨감자의 크기가 1~3 g에서 30~50 g으로 커짐에 따라 34일에서 16일로 크게 단축되었다. 씨감자 크기가 커짐에 따라줄기수가 많았으며, 줄기의 길이와 굵기 및 잎의 크기도 증가되는 경향이었다. 두 재배시기 모두 주당괴경수, 괴경평균중, 총괴경 및 규격씨감자 수량은 씨감자가 10~20 g까지 커짐에 따라 거의 직선적으로 많아졌고, 더 이상 씨감자가 커질 때 완만히 증가되는 경향이었다. 가을재배에만 심은 비슷한 크기의 심지양액재배와 분무경씨감자 사이에 총괴경 및 씨감자수량은 유의한 차이가 없었다.

Two field experiments were carried out in 2002 to evaluate effects of the sizes of tubers produced through a wick-based hydroponics on growth and yield of seed potatoes (Solanum tuberosum L. 'Dejima'). Nine sizes of seed tubers (<1, 1~3, 3~5, 5~7, 7~10, 10~20, 20~30, 30~50, and 50~80 g) were used in spring crop. In fall crop, however, tubers except for the 1 g and 50~80 g wereused with tubers 7 and 15 g produced through aeroponics. Emergence rate greatly increased as tuber size was increased up to 10~20 g and then leveled off in both croppings. The number of days from planting to emergence in spring crop was about 34 days regardless of tuber size, while that in fall crop decreased from 34 to 16 days as tuber size increased from 1~3 to 30~50 g. The number of stems per plant, stem length and diameter, and leaf size tended to increase with tuber size. As the seed tuber size increased up to 10~20 g, the number of tubers per plant, average tuber weight, total and seed tuber yields linearly increased and then slowly increased with seed tuber size. Total and seed potato yields were not significantly different between tubers produced through a wick-based hydroponics and an aeroponics when similar sized tubers were planted in the fall cropping.

키워드

참고문헌

  1. Arsenault, W.J. and B.R. Christie. 2004. Effe ct of whole seed tuber size and pre-plant storage conditions on yield and tuber size distribution of Russet Burbank. Amer. J. Potato Res. 81 : 371-376 https://doi.org/10.1007/BF02870197
  2. Burton, W.G. 1989. The potato. Longman Sci. & Tech., Essex CM20 2JE, England. pp. 182-184.
  3. Chae, W.B., H. Choi, Y.B. Kwack, H.L. Kim, D.H. Goo, D.W. Lee, and M.l.J. Lee. 2008. Effects of seed tuber weight and storage period on the tuber number and weight of potato 'Dejima' (Solanum tuberosum L.). Kor. J. Hort. Sci. Technol. 26(SUPPL.):114
  4. Dean, B.B. 1993.Managing the potato production system. Food Products Press, NY. pp. 56-59.
  5. Hong, S.Y., Y.K. Kang, and Y.I. Hahm. 2003. Effect of soil and tuber disinfection on potato common scab (S. scabies) in Jeju field conditions. Res. Plant Dis. 9 : 137-144. https://doi.org/10.5423/RPD.2003.9.3.137
  6. Iritani, W.M., R. Thornton, L. Weller, and G. O'leary. 1972. Relationships of seed size, spacing, stem numbers to yield of Russet Burbank potatoes. Amer. Potato J. 49 : 463-469. https://doi.org/10.1007/BF02895746
  7. Kang, B.K. and S.H. Han. 2005. Production of seed potato (Solanum tuberosum L.) under the recycling capillary culture system using controlled release fertilizers. J. Japan. Soc. Hort. Sci. 74 : 295-299. https://doi.org/10.2503/jjshs.74.295
  8. Kang, B.K. and C.W. Kim. 2004. Development of recirculating wick hydroponic techniques for safe seed tuber multiplication of potatoes. Korean J. Crop Sci. 49 : 447-451.
  9. Kim, C.W. 2003. Development of recirculating wick hydroponic techniques for safe seed tuber multiplication of potatoes. Ph.D. diss., Cheju Natl. Univ., Jeju, Korea.
  10. Kim, C.W., C.K. Song, J.S. Park, H.K. Mun, Y.K. Kang, and B.K. Kang. 2008. Effects of medium and planting density on growth and yield of seed potatoes grown in a wick hydroponic system. Korean J. Crop Sci. 53 : 251-255.
  11. Kim, K.T. 1997. Studies on increasing the productuon of mini-tubers in hydroponics for seed potato (Solanum tuberosum L.). Ph.D. diss., Cheju Natl. Univ., Jeju, Korea.
  12. Rykbost, K.A. and K.A. Locke. 1999. Effects of seed piece size on performance of three potato varieties in the Klamath Basin of Oregon. Amer. J. Potato Res. 75 : 75-82.
  13. Son, D.M. and S.Y. Yoang. 1998. Effect of growth, yield on size and multiple production method of seed tuber in field. Kor. J. Hort. Sci. Technol. 16(1) : 94.
  14. Yamaguchi, M., H. Timm, and A.R. Spurr. 1964. Effects of soil temperature on growth and nutrition of potato plants and tuberization, composition, and periderm structure of tubers. Proc. Amer. Soc. Hort. Sci. 84 : 412-423.
  15. 김철균. 2000. 약액재배에 의한 우량씨김자 생산. 감자재배기술. 건원인쇄사, 제주도농업기술원. pp. 214-235.
  16. 현관희. 2000. 재배기술. 감자재배기술. 건원인쇄사, 제주도농업기술원. pp. 53-138.