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Application Level of Anaerobic Digestion Waste Water from Methane Fermentation of Pig Manure on Rice
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 Title & Authors
Application Level of Anaerobic Digestion Waste Water from Methane Fermentation of Pig Manure on Rice
Lim, Dong-Kyu; Park, Woo-Kyun; Kwon, Soon-Ik; Nam, Jae-Jak; Park, Baeg-Kyun; Kim, Seung-Hwan;
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This study was conducted to evaluate the effect of the proper application level of anaerobic digestion waste water on rice. The waste water was from methane fermentation of pig manure to use as a liquid manure. The mixture treatment of 70% liquid manure and 30% chemical fertilizer (LM 70%+CF 30%) and 100% liquid manure (LM 100%) treatment were higher number of tiller than other treatments at the both tillering and heading stages of rice. The yields of LM 70%+CF 30% and LM 100% treatments were a little higher than that of NPK treatment, but the mixture treatment of 50% liquid manure and 50% chemical fertilizer (LM 50%+CF 50%) was a little lower yield than NPK treatment. The periodic changes of the and contents of the NPK and the LM 50%+CF 50% treatments in paddy soil were a little higher than those of other treatments at the early stage of rice. The contents of NPK and the LM 50%+CF 50% treatments in irrigation water quality were higher than those of other treatments, however there was no difference in content among the treatments. The and contents of non fertilizer treatment in infiltration water quality were leached a little higher than those of other treatments. It may be due to poor growth of rice following to reduce the nutrient uptake by rice and to increase relatively the nutrient leaching to the ground water. The proper application level of anaerobic digestion waste water as a liquid manure could be suggested to apply LM 70%+CF 30%. All treatments were the same amount of nitrogen content for the standard application amount on rice.
anaerobic digestion;liquid manure;rice yield;application level;
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환경부(2000. 7. 2) 폐기물관리법 시행령 별표, p.131-136

해양수산부 (2000. 3. 28) 해양오염방지법 시행령(별표 14조)

Hooda, P. S., Edwards, A. C., Anderson, H. A. and Miller, A. (2000) A review of water quality concerns in livestock farming areas, The Science of the Total Environment 250, 143-167 crossref(new window)

Randall, G. W., Iragavarapu, T. K. and Schmitt, M. A. (2000) Nutrient lossess in subsurface drainage water from dairy manure and urea applied for com, Journal of Environmental Quality 29, 1244-1252 crossref(new window)

Schmitt, M. A., Russelle, M. P., Randall, G. W., Sheaffer, C. C., Greub, L. J. and Clayton, P. D. (1999) Effect of rate, timing, and placement of liquid dairy manure on reed canarygrass yield, Journal of Production Agriculture 12, 239-243 crossref(new window)

Sonesson, U., Bjorklund, A., Carlsson, B. and Dalemo, M (2000) Environmental and economic analysis of management systems for biodegradable waste, Resources, Conservation and Recycling 28, 29-53 crossref(new window)

Tafdrup, S. (1995) Viable energy production and waste recycling from anaerobic digestion of manure and other biomass material, Biomass and Bioenergy 9, 303-314 crossref(new window)

Vellidis, G., Hubbard, R. K., Davis, J. G., Lowrance, R., Williams, R. G., Johnson, J. C. and Newton, G. 1. (1996) Nutrient concentrations in the soil solution and shallow groundwater of a liquid dairy manure land application site, Transactions of the American Society of Agricultural Engineers 39, 1357-1365

Zebarth, B. J., Paul, J. W., Schmidt, O. and McDougall, R (1996) Influence of the time and rate of liquidmanure application on yield and nitrogen utilization of silage com in south coastal British Columbia, Canadian Journal of Soil Science 76, 153-164 crossref(new window)

Zebarth, B. J., Paul, J. W and Kleeck, R V. (1999) The effect of nitrogen management in agricultural production on water and air quality : Evaluation on a regional scale, Agriculture, Ecosystems and Environment 72, 35-52 crossref(new window)

한성금,한욱동, 김경수, 정대봉, 김형철 (1967) Methane Gas 발생연구 및 이용시험, 농공이용연구소, p.175-195

임동규, 최두회, 신제성 (1985) 메탄발효 폐액의 비효구명시험, 농기연 시험연구보고서, p.25-29

정연규, 이종열 (1980) 청예옥수수에 대한 메탄발효 폐액의 비료효과, 축시 시험연구보고서, p.533-536

허일봉, 심준우 (1977) 메탄가스 폐액의 비료화 시험, 농기연 시험연구보고서, p.79-92

Lim, D. K., Park, W. K. and Kwon, S. I. (2002) Utilization of anaerobic digestion waste water from methane fermentation of livestock manure, Development of biogas utilization technology for treating methane fermentation of livestock manure, Rural Development Administration, 179-223

국립농헙자재검사소 (1984) 비료검사요령, 205p

농업기술연구소 (1988) 토양화학분석법-토양, 실물체, 미생물- 450p

環境部(1995) 水質測定檢査 環境公務員敎育院 190p

Roh, K. A., Kim, K. Y., Kang, K. K. and Ahn, Y. S. (2000) The influence of soil management methods to the agroecosystem of rice paddies, Environmentally friendly agriculture in the conservation area of tap water supply, Rural Development Administration, 33-55

Bernal, M. P. and Kirchmann, H. (1922) Carbon and nitrogen mineralization and anunonia volatilization from fresh, aerobically and anaerobically treated pig manure during incubation with soil, Biol. Fertil. Soils 13, 135-141

Djurhuus, J. and Jacobsen, O. H. (1995) Comparison of ceramic suction cups and KCI extraction for the determination of nitrate in soil, Europen Journal of Soil Science 46, 387-395 crossref(new window)

이기상, 이동창, 허일봉, 이연 (1997) 벼 재배시 양분행동에 관한 연구, 농업과학기술연구소, 시험연구사업보고서, p.703-710

Periago, E., Lopez, A., Nunez, D. and Diaz, F. (2000) Ground water contamination due to cattle slurry : Modelling infiltration on the basis of soil column experiments, Water Research 34, 1017-1029 crossref(new window)