• 한국토양비료학회지
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• 제49권4호
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• pp.327-334
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• 2016

In order to compare phosphorus (P) behavior of livestock manure compost (LMC) and chemical fertilizer (CF) applied to the sea-reclaimed land soils, incubation experiments were conducted for five weeks. Four soils differing textural classes, sandy loam and clay loam, and electric conductivity (EC) value, high and low, were applied with CF and LMC. LMC was applied at the level of 0, 1, 2, and 3% on the soil weight basis and CF was applied at the same levels of P as LMC. The results showed that increase of P application rate of CF and LMC led to linearly increase available $P_2O_5$ and $0.01M\;CaCl_2$ extractable P contents regardless of soil texture and EC. However, 0.01M $CaCl_2$ extractable P from soil applied with CF was significantly higher than with LMC. Correlation analysis between $0.01M-CaCl_2$ extractable P and fractionated P by different extraction methods showed that $0.01M-CaCl_2$ extractable P positively correlated with KCl-P (soluble and exchangeable P) and HCl-P (Ca and Mg bound P). However, NaOH-P (Fe and Al bound P and organic P) and residual P was adverse. The amount of NaOH-P significantly influenced to the amount of 0.01M $CaCl_2$ extractable P of CF and LMC in the soils. The application of LMC at sandy loam soil could be carried out in the consideration of nutrient leaching and crop uptake.

• 유기물자원화
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• 제29권1호
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• pp.47-57
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• 2021

본 연구는 유기성 자원 중 가축분퇴비(LMC), 가공계분(CPM), 음식물류폐기물건조분말(FWP) 및 아미노산발효부산액(ABF)등과 혼합유기질비료(MOF)의 혼합물의 이화학적 특성의 변화와 작물에 대한 생육을 조사하였다. LMC, FWP 및 MOF의 혼합물(MLF)의 질소, 인산 및 칼륨의 함량은 각각 3.6~3.9%, 2.1~2.2% 및 1.3~1.4%의 범위를 나타내었다. MLF3 처리구(60% MOF + 10% LMC + 30% FWP)는 대조구(MOF)보다 약 29% 상추의 건물중이 증가하였다. CPM, FWP, ABF 및 MOF의 혼합물인 MCFA의 질소, 인산, 칼륨의 함량은 각각 4.5~4.7%, 1.7~1.9% 및 1.3~1.4%의 범위를 나타내었다. MCFA를 상추와 배추에 처리하였을 경우 MOF와 통계적으로 유의적인 차이를 나타내지 않았다. 이러한 결과는 유기성 자원과 혼합유기질비료의 혼합물인 MLFs와 MCFAs의 시비는 상추와 배추 재배에서 혼합유기질비료(MOF)와 유사한 작물생육특성을 나타내어 LMC와 ABF는 유기질비료의 원료로 가능성을 나타내었다.

• 한국토양비료학회지
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• 제47권3호
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• pp.199-204
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• 2014

We conducted a short-term incubation experiment in order to understand the effect of the salinity of reclaimed coastal soils on nitrogen mineralization of livestock manure compost (LMC). Two soils with the same soil texture but different EC levels were collected from the same field. These samples were treated with 0%, 1%, 2%, and 3% of LMC by weight basis and incubated at $25^{\circ}C$ to observe changes in inorganic N contents, pH, and dehydrogenase activity with respect to time. As a result, regardless of the soil EC level, as the LMC increased, the total content of the inorganic N ($NH_4{^+}+NO_3{^-}$) increased. Difference in the soil EC level did not affect N mineralization of LMC greatly. The soil EC had negligible effect on the dehydrgenase activity as with the case of inorganic nitrogen. The $NH_4{^+}$ contents remained very low throughout the experimental period starting from the first week of incubation. We believe this is due to the high pH level (pH 7.9 and pH 8.3) of the original soils leading to ammonia volatilization. On the other hand the $NO_3{^-}$ content maintained high level as the LMC treatment level increased and reached maximum at the third week. The pH of the soil during incubation period decreased as the $NO_3{^-}$ contents increased and increased slightly after three weeks. The rise of pH level is believed to be from the $NO_3{^-}$ absorption for immobilization by microbes. In conclusion, the high soil $EC_{1:5}$ level of $12dS\;m^{-1}$ conducted in this experiment did not affect the growth in terms of soil microbes involved in N mineralization of LMC.