Korean Journal of Environmental Agriculture (한국환경농학회지)

The Korean Society of Environmental Agriculture (한국환경농학회)
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Recommendation of Nitrogen Fertilization for Cucumber from Relationship between Soil Nitrate Nitrogen and Yield

토양의 질산태 질소와 수량과의 관계를 통한 오이의 질소 시비량 설정

  • Lim, Tae-Jun (Horticultural Soil Management Team, National Horticultural Research Institute) ;
  • Hong, Soon-Dal (Department of Agricultural Chemistry, Chungbuk National University) ;
  • Kim, Seung-Heui (Horticultural Soil Management Team, National Horticultural Research Institute) ;
  • Park, Jin-Myeon (Horticultural Soil Management Team, National Horticultural Research Institute)
  • 임태준 (원예연구소 원예토양관리연구팀) ;
  • 홍순달 (충북대학교 농과대학 농화학과) ;
  • 김승희 (원예연구소 원예토양관리연구팀) ;
  • 박진면 (원예연구소 원예토양관리연구팀)
  • Published : 2007.09.30
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Abstract

This study was carried out to establish the reasonable level of nitrogen (N) fertilization based on soil nitrate nitrogen $(NO_3-N)$ content for cucumber (Cucumis sativus L.) under plastic film house. Cucumber plants were cultivated with standard and free N fertilization in eight soils which had various amount of $NO_3-N$ ranging from 67 to 343 mg/kg. The yield of cucumber was in the range of 1006 to 2369 g/plant depending on the nitrogen supplying capability of soils. The amount of $NO_3-N$ in the soil was negatively correlated with agronomic efficiency (AE) and N use efficiency (NUE). The critical level of soil $NO_3-N$ content for cucumber in N free fertilization was found to be about 260 mg/kg in Cate-Nelson analysis of variance between soil $NO_3-N$ and AE or NUE. Also the same critical soil $NO_3-N$ content was found in the yield and amount of N uptake of cucumber under N free fertilization. A standard N fertilization was required when soil $NO_3-N$ content was below 70 mg/kg. The optimal application rate of N fertilizer for cucumber in the soils containing $NO_3-N$ between 260-70 mg/kg could be recommended by the equation Y=-1.032X+269.2 (Y: N fertilization rate, kg/ha; X : soil $NO_3-N$ content mg/kg).

토양의 질산태 질소를 이용하여 시설 오이의 적정 질소 시비량을 결정하고자 질산태 질소 함량이 67-343 mg/kg의 범위를 갖는 8곳의 시설재배 토양으로부터 오이를 공시작물로 표준시비구와 무시비구에 대한 생산력 검정시험을 포트 재배로 조사하였다. 오이의 수량은 최소 1,006 g/plant에서 최대 2,369 g/plant로 토양 질소함량 수준에 따라 다양한 생산능력의 차이를 보였다. 토양의 질산태 질소는 Agronomic efficiency(AE)과 N use efficiency(NUE)와는 부의 상관을 보였다. 질소 무비 재배를 위한 시험 전 토양의 질산태 질소 임계기준은 토양의 질산태 질소 함량에 대한 AE 및 NUE의 관계를 Cate-Nelson 일원분류의 분산분석법으로 비교하고 또한 무비구의 수량 및 지상부의 질소 흡수량과의 관계로부터 추정하였을 때 약 260 mg/kg으로 나타났다. 질소 표준 시비가 요구되는 시험 전 토양의 질산태 질소 임계기준은 70 mg/kg으로 추정되었다. 질산태 질소 함량이 70-260 mg/kg 범위의 토양에서는 Y=-1.032X + 269.2(Y: 질소시비량, kg/ha; X: 시험 전 토양의 질산태 질소 함량, mg/kg) 추천식으로 질소시비량을 결정할 수 있다.

Keywords

References

  1. Daliparthy, J., Herbert, S. J. and Venernan, P. L. M. (1994) Dairy manure application to alfalfa crop response, soil nitrate, and nitrate in soil water, Agron. J. 86, 927-933 https://doi.org/10.2134/agronj1994.00021962008600060001x
  2. Jung, B. G., Choi, J. W., Yun, E. S., Yoon, J. H., Kim, Y. H. and Jung, G. B. (1998) Chemical properties of the horticultural soils in the plastic film houses in Korea, J. Korean Soc. Soil Sci. Fert. 31(1), 9-15
  3. Ulery, A. L., Teed, J. A., Genuchten, M. Th. van. and Shannon, M. C. (1998) SALTDATA: A Database of plant yield response to salinity, Agron. J. 90, 556-562 https://doi.org/10.2134/agronj1998.00021962009000040019x
  4. Lee, C. S., Kim, P. J., Park, Y. H. and Kwak, H. K. (2000) Determination of nitrogen balance of agricultural land among OEm nutrient balance indexes, Korean J. Soil Sci. Fert. 33(5), 347-355
  5. Hong, S. D. (2001) Effective management for cultivation soils under plastic film house. In International symposium on soil and water management, Korean J. Soil Sci. Fert. p. 120-164
  6. Hong, S. D., Kang, B. G. and Kim, J. J. (1998) Optimum fertilization based on soil testing for chinese cabbage cultivation in plastic film houses, J. Korean Soc. Soil Sci. Fert. 31(1), 16-24
  7. Kang, S. S. and Hong, S. D. (2004) Estimation of optimum application rate of nitrogen fertilizer based on soil nitrate concentration for tomato cultivation in plastic film house, Korean J. Soil Sci. Fert. 37(2), 74-82
  8. Park, H. T. and Hong, S. D. (2000) Optimum level of nitrogen fertilizer based on content of nitrogen for growing chinese cabbage in green house, Korean J. Soil Sci. Fert. 33(6), 384-392
  9. NIAST. (2000) Method of soil and plant analysis, National Institute of Agricultural Science and Technology, RDA, Suwon, Korea
  10. Jagadeeswaran, R, Murugappan, V. and Govindaswamy, M. (2005) Effect of slow release NPK fertilizer sources on the nutrient use efficiency in Turmeric (Curcuma longa L.), World. J. Agri. Sci. 1(1), 65-69
  11. Kwak, H. K., Song, Y. S. and Hong, C. W. (1997) Nitrogen recommendation based on soil nitrate test for chinese cabbage growth in plastic film house, J. Korean Soc. Soil Sci. Fert. 30(1), 84-88
  12. Cate, R B. Jr. and Nelson, L. A. (1971) A simple statistical procedure for partitioning soil test correlation data into two class, Soil Sci. Soc. Am. J. 35, 658-660 https://doi.org/10.2136/sssaj1971.03615995003500040048x
  13. Black, C. A. (1993) Soil fertility evaluation and control, CRC Press Inc., p. 349-352
  14. Halvorson, A. D., Black, A. L., Krupinsky, J. M., Merrill, S. D., Wienhold, B. J. and Tanaka. D. L. (2000) Spring wheat response to tillage and nitrogen fertilization in rotation with sunflower and winter wheat, Agron. J. 92, 136-144 https://doi.org/10.1007/s100870050016
  15. Schlegel, A. J., Grant, C. A. and Havlin, J. L. (2005) Challenging approaches to nitrogen fertilizer recommendations in continuous cropping systems in the Great plains, Agron. J. 97, 391-398 https://doi.org/10.2134/agronj2005.0391
  16. 농촌진홍청 농업과학기술원. (2006) 작물별 시비처방 기준

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