Effect of Bed Soil with Polypropylene Spunbonded Fabrics on Rice Seedling Production

  • Lee, Sang-Chul (Department of Agronomy, Kyungpook National University) ;
  • Lee, Ji-Ean (Department of Agronomy, Kyungpook National University) ;
  • Shon, Tae-Kwon (Department of Agronomy, Kyungpook National University) ;
  • Jeong, Ki-Po (Department of Agronomy, Kyungpook National University) ;
  • Daniel Acquah (Department of Agronomy, Kyungpook National University) ;
  • Kim, Sang-Kuk (Kyongbuk Provincial Agricultural Technology Administration)
  • Published : 2003.06.01

Abstract

The study of this experiment is focused on labor saving of healthy rice seedling production using PSF (polypropylene spunbonded fabrics) as thermal protection material. Several factors such as different compositions of nursery soil and PSF materials were tested to produce healthy rice seedlings. The inner thermal protection material in PE film (polyethylene film) showed $0.9-1.7^{\circ}C$ higher than that of PSF 40-100 $\textrm{gm}^{-2}$. The light transmittance-ratio also showed similar trends. It is considered that the appropriate PSF material density was 40 gm$\textrm{gm}^{-2}$ in accordance with economic values and healthy rice seedlings. Plant height and dry weight according to various nursery soil showed the rang-es of 8.5-14.2cm and 5.5-10.0mg, respectively. In composition of nursery soil, artificial soil combined with paddy soil was effective in producing healthy seedling for rice seedling production. The total sugar content also showed the difference between PSF 40, 60 $\textrm{gm}^{-2}$ PE film (0.43-0.52mg FW $\textrm{g}^{-1}$) and PSF 80, 100 $\textrm{gm}^{-2}$ (0.28-0.35mg FW $\textrm{g}^{-1}$) and it showed the same tendency among varieties as well as various nursery soil. These results demonstrate that PSF 40 $\textrm{gm}^{-2}$ economically affordable, and can be recommended as thermal protection material for producing good healthy rice seedling.

Keywords

References

  1. Hong, K. R, J. Y. Kim, D. J. Kang, Y. G. Kim, W. K. Joung, G. W. Song, and Z. R. Choe. 2000. Nursing method with polypropylene spunbonded fabric in rice. Korean J. of Crop Sci., 45(2): 118-122
  2. Hwang, K. H., J. T. Lee, J. I. Yun, K. M. Shim, and S. O. Hur. 2000. Microclimate in rice nursery bed covered with various materials. Korean. J. of Agricultural and Forest Meteorology, 2(3): 87-94
  3. Kepper, D. and K. Decker. 1974. Methods of enzymatic analysis. In: Bergmeyer HU(ed). Verlag, Weinheim Academic Press, Inc. New York and London. 3 : 1127-113
  4. Kim, J. H., C. G. Lee, J. K. Kim, W. H. Yang, H. S. Han, Y. S. Kang, and S. C. Kim. 2000. Determination of critical early seeding date for raising seedling of rice using spunbonded polyester fabrics. Treatises of Crop Researches, 1 : 187-190
  5. Kim, J. Y, K. P. Hong, D. J. Kang, N. D. Kang, and W. K. Shin. 1997. Covering effects of polypropylene spunbonded nonwoven on growth and labor saving in rice raising seedling. Korean J. of Crop Sci., 42(2): 88-89
  6. Kim S. S., M. G. Choi, S. Y. Lee, C. H. Yoo, S. Y. Cho, and B. T. Jun. 1996. Effects of nitrogen fertilization rate at different nursery soils on seedling characters and endosperm consumption. Korean J. Crop Sci., 41(5): 514-520
  7. Song, Y. J., S. J. Kwon, B. R. Ko, J. S. Na, and S. T. Lee. 1998. Comparison of seedling quality under different shading degree, opening time and seed pretreatment at box raising seedling with nonwoven fabric in rice. Korean J. of Crop Sci, 43(1) : 111-112
  8. Yun, S. H., B. W. Lee, B. C. Kim, and J. T. Lee. 1990. Diumal variation of COU concentration and air temperature in polyethylene film covered rice seeded subjected to various ventilation methods. Korean J. of Crop Sci., 35(6): 543-547
  9. Yun, Y. D., W. H. Yang, Y. H. Kwag, and S. H. Park. 1986. Rice seedling establishment for machine transplanting. VI. Effect of mulching materials on raising rice seedling at tray for machine transplanting. Korean J. of Crop Sci., 31(1): 9-15