한국토양비료학회지 (Korean Journal of Soil Science and Fertilizer)

  • 제41권2호
  • /
  • Pages.103-111
  • /
  • 2008
  • /
  • 0367-6315(pISSN)
  • /
  • 2288-2162(eISSN)
한국토양비료학회 (Korean Society of Soil Science and Fertilizer)
권호 표지

혼합유박 시용량 및 시용시기가 토양환경과 미질에 미치는 영향

Effect of Application Time and Rate of Mixed Expeller Cake on Soil Environment and Rice Quality

  • 양창휴 (농촌진흥청 작물과학원 호남농업연구소) ;
  • 류철현 (농촌진흥청 작물과학원 호남농업연구소) ;
  • 김병수 (농촌진흥청 작물과학원 호남농업연구소) ;
  • 박우균 (농촌진흥청 농업과학기술원) ;
  • 김재덕 (농촌진흥청 작물과학원 호남농업연구소) ;
  • 정광용 (농촌진흥청 작물과학원 호남농업연구소)
  • 투고 : 2007.11.20
  • 심사 : 2008.01.11
  • 발행 : 2008.04.30
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

벼 재배시 유기질비료에 의한 질소비료 대체를 위하여 혼합유박의 적정 시용량 및 시용시기를 구명코자 전북통에서 동진1호를 공시하여 2년 동안 시험한 결과를 요약하면 다음과 같다. 시험 후 토양화학성 중 유기물 함량은 표준시비에 비하여 혼합유박 기비 100%구에서 높은 반면에 총질소 함량은 가장 낮았으며 유효인산 함량은 혼합유박 대체 시용량이 적을수록 높았다. 또한 표준시비구에 비하여 혼합유박 시용구에서 유기물 함량이 높았고, 유효인산, 총질소 함량 및 양이온치환용량은 혼합유박 시용시기가 늦을수록 낮아지는 경향을 나타냈으며 치환성양이온은 큰 변화가 없었다. 토양 중 무기태질소 함량은 혼합유박 시용량이 많을수록 높은 경향으로 수확기 무기태질소는 기비 70%, 50% 시용구에서 거의 용출이 완료되었으며 질소 $110kg\;ha^{-1}$를 혼합유박으로 전량 기비로 시용하였을 경우 시비질소의 무기태질소 함량은 시용시기가 늦을수록 많았으나 생육후기로 갈수록 낮아지는 경향을 보였다. 생육시기별 SPAD 측정치는 표준시비에 비하여 혼합유박 대체 시용량이 많을수록 높은 경향을 나타냈고, 생육중기까지는 혼합유박 시용구에서 표준시비구보다 짙은 반면에 생육후기에는 기비 70%, 50% 시용구에서 옅었으며 혼합유박 시용시기가 늦을수록 생육전반에 걸쳐 짙은 경향을 나타냈다. 또한 시비질소 흡수량은 혼합유박 대체 시용량이 많을수록 많았고 성숙기에는 기비 50% 시용구에서 표준시비구보다 흡수량이 적었으며 질소이용률은 기비 70% 시용구에서 가장 높았다. 혼합유박 시용시기가 이앙 전 10~15일 시용구에서 시비질소 흡수량이 가장 많았고 시용시기가 빠를수록 적어졌으며 질소이용률도 같은 경향이었다. 쌀 수량은 표준시비구($5.18Mg\;ha^{-1}$) 대비 기비 50% 시용구에서는 대등하였으나, 기비 70%, 100% 시용구에서 수수 및 영화수 확보가 많아 4% 증수되었고, 유박 시용구에서 2~5% 증수되었으며 특히 이앙 전 15~10일 시용구에서 높았다. 또한 시용시기가 늦을수록 간장과 수장이 길었고 수수와 영화수확보가 많았으나 등숙비율은 낮아지며 현미 천립중은 큰 차이를 나타내지 않았다. 현미의 외관적 품질 중 완전립 비율은 기비 100% 시용구에서 가장 낮았고, 완전미 비율은 기비 70%, 50% 시용구에서 높았으며 현미 중 단백질 함량은 혼합유박 시용으로 적은 경향을 나타냈다. 결론적으로 평야지 보통논의 혼합유박 적정 시용량 및 시용시기는 기비 70%, 이앙 전 10~15일 시용으로 판단되었다.

This study was carried out to investigate the optimal application rate and time of mixed expeller cake (MEC) for the replacement of chemical fertilizer. Dongjin-1, as cultivated rice was used at Fluvio-marine deposit in Honam plain paddy field. Soil chemical properties were improved by the application of MEC. Contents of total nitrogen and organic matter were higher in 70%, 100% plots of basal dressing than standard fertilizer application (SFA) plot. Cation exchangeable capacity was highly increased in 70% plot of basal dressing. Also, the content of organic matter in soil was increased with MEC application. Cation exchangeable capacity, total nitrogen and available phosphate were decreased according to late application time. The content of inorganic nitrogen in soil showed high tendency at more application rate of MEC, and nitrogen mineralization at harvest season have finished in 50%, 70% plots of basal dressing. The content of inorganic nitrogen in soil was increased according to late application time, however it was decreased in the late period of growth. Leaf color value became darker with increased application rate of MEC. Leaf color was dark green in MEC application plots at panicle formation stage, on the other hand, it was light green in 50%, 70% plots of basal dressing at heading stage. SPAD reading value of leaf-color was high during the whole growth stage in MEC application plots. More application rate of MEC showed higher tendency of fertilizer nitrogen absorption. Nitrogen use efficiency was the highest in 70% plot of basal dressing. Absorbed amount of fertilized nitrogen was increased in 10~15days before transplanting and nitrogen use efficiency was high according to the late application time. The ratio of perfect kernel and the content of protein on hulled rice showed high tendency at the less application rate of MEC. The ratio of head rice on milled rice showed high tendency at the less application rate of MEC. Rice yield increased 4% in 100% and 70% plots of basal dressing compare with SFA ($5.18Mg\;ha^{-1}$) plot respectively. Ear and culm length of rice were long according to the late application time, while the numbers of spikelet and ear were increased and the percentage of ripened grain was decreased. Rice yield was increased 2~5% in all MEC application plots compared to SFA plot and especially, increased 10~15days before transplanting in application plots. The optimal application rate and time of MEC on normal paddy field in plain were concluded that 70% basal dressing and 10~15days before transplanting

키워드

참고문헌

  1. http://www.wonye.co.kr/technical/material/etc135.htm
  2. Kang, S.W., C.H. Yoo, C.H. Yang, and S.S. Han. 2002. Effects of rapeseed cake application at panicle initation stage on rice yield and N-use efficiency in machine transplanting cultivation. J. Korean Soc. Soil Sci. Fert. 35:272-279.
  3. Kwun, K.C., J.K. Kim, I.Y. Kim, S.H. Park, and D.S. Jo. 1984. Effects of continuous fertilizations on physical and chemical properties of paddy soil and growth of rice plant. Res. Rept. RDA. 26:67-76.
  4. MAF. 2006. Environment friendly product rearing counterplan. Ministry of Agricultural and Forestry. Seoul. Korea
  5. NHAES. 2001. Study on characteristics of nitrogen mineralization in different organic fertilizer. Report of Honam Agricultural Experiment Station. p. 331-341.
  6. NIAST. 1999. Solid and liquid composting of animal manure and its utilization. National Institute of Agricultural Science and Technology. Suwon. Korea.
  7. NIAST. 2000. Soil and analysis method of plant body. National Institute of Agricultural Science and Technology. Suwon. Korea.
  8. Oh, W.K. 1966. Effects of organic materials application on paddy soil physico-chemical properties. Res. Rept. RDA. 9:175-208.
  9. Oh, W.K. 1978. Effects of organic materials on soil chemical properties. J. Korean Soc. Soil Sci. Fert. 11:161-173.
  10. RDA. 1999. Fertilizer recommendation in standard levels for crops. Rural Development Administration. Suwon. Korea.
  11. RDA. 2003. The experimental protocol for agricultural experiments. Rural Development Administration. Suwon. Korea.
  12. RDA. 2003. Statistics on rural development enterprise. Rural Development Administration. Suwon. Korea.
  13. Shin, J.S., and Y.H. Shin. 1975. The effect of long-term organic matter addition on the physicochemical properties of paddy soil. J. Korean Soc. Soil Sci. Fert. 8:19-23.
  14. Yamane, C.S., and H.H. Matzura. 1970. Change of soil physicochemical properties after application rice straw. Res. Rept. Chugoku National Agricultural Experiment Station. 5:69-76.
  15. Yamashita, K.H. 1967. Effect of long-term application compost on the humus and physico-chemical properties of paddy soil. The report of National Agricultural Research Center for Kyushu Okinawa Region. 13:113-156.
  16. 九州農業試驗場. 1990. 九州農業試驗硏究成績.計劃槪要集. p. 211-212.
  17. 九州農業試驗場. 1992. 九州農業試驗硏究推進會議資料.
  18. 九州農業試驗場. 2000. 持續性のある農業における施肥改善技術の確立. 九州農業試驗硏究成績.計劃槪要集. 11.
  19. 農産漁村文化協會. 1984. 土壤に關する養分の動態. 農業技術大系(土壤肥料編). p. 151-155.
  20. 土壤標準分析.測定法委員會編. 1990. 土壤標準分析.測定法. p. 110-114. 博友社. 日本.