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축분 퇴비의 이화학적 특성과 발아지수를 이용한 부숙도 평가
장기운(Ki-Woon Chang),홍주화(Joo-Hwa Hong),이종진(Jong-Jin Lee),한기필(Ki-Pil Han),김남천(Nam-Cheon Kim) 한국토양비료학회 2008 한국토양비료학회지 Vol.41 No.2
This study was conducted to evaluate the humification grade of compost, based on physico-chemical property and phyto-toxicity during the composting with three kinds of livestock manures and saw dust. The ratios of the compost, which was mixed with pig manure(P) and sawdust(S) were 4 : 6(PS-1), 5 : 5(PS- 2) and 6 : 4(PS-3); poultry manure(PO) and sawdust(S) were 4 : 6(POS-1), 5 : 5(POS-2) and 6 : 4(POS-3); cow manure(C) and sawdust(S) were 4 : 6(CS-1), 5 : 5(CS-2) and 6 : 4(CS-3) by volume to volume, and they were decomposed for 60 days. In the result, the temperature in all treatments during composting rapidly increased above 65.4℃, and then gradually decreased to around 40℃. At 60 day, after the treatment, pH 5.9~8.0 at the incipient stage increased to 7.6 ~ 8.5, and the C/N ratio was 13.8~21.1 at the final composting stage. Germination Index(G.I.) showed in the range of 75.1~94.6 in all treatments at day 60. Therefore, it is likely recommended to take the best humification grade when the temperature maintains above 65℃ longer than a day at minimum, in the range of pH 6.5~8.5 for the final compost, under 20 of C/N ratio, and G.I. above 80. The level of G.I. above 80 should be the mature compost which could be used in the field without gas demage to crops.
장기운(Ki-Woon Chang),이종진(Jong-Jin Lee),홍주화(Joo-Hwa Hong),김남천(Nam-Chean Kim),김완주(Wan-Ju Kim),최우영(Woo-Young Choi) 충남대학교 농업과학연구소 2007 Korean Journal of Agricultural Science Vol.34 No.2
This study was conducted to estimate the humificating grade according to experiment of physico-chemical characterization and phyto-toxicity during composting of using with pig manure and castor meal. The material ratios of the compost which was mixed with pig manure(P), castor meal(C), and saw dust(S) were 5 : 1 : 4(PCS-Ⅰ), 5 : 2.5 : 2.5(PCS-Ⅱ) and 5 : 4 : 1(PCS-Ⅲ) by volume to volume, and they were decomposed for 60 days. In the result, the changes of temperature in all treatments during composting were rapidly increased more than 68℃ at the incipient stage, and gradually decreased within 39℃ at 60 days the after treatment. pH was slowly increased from 7.5 to 7.7, and the C/N ratio was 13~14 at the final composting stage. The low C/N ratio value in this compost was caused by the castor meal contented high nitrogen level(T-N 5.7 %). G.I.(germination index) was showed 73 to 78 range in all treatments at the 60<SUP>th</SUP> day. Among all treatments PCS-Ⅰ was appeared to be the best condition for composting.
부식산분말 처리에 따른 가축분의 퇴비화 특성 및 시비효과
이태순(Tae Soon Lee),조성현(Sung Hyun Cho),정제용(Je Yong Jeong),안지예(Ji Ye An),이종진(Jong Jin Lee),한기필(Ki Pil Han),홍주화(Joo Hwa Hong),김영선(Young Sun Kim) 유기성자원학회 2017 유기물자원화 Vol.25 No.2
Humic acid was used soil amendment or functional fertilizer in Korean agriculture, and its cation exchangeable capacity was high enough to increase soil buffering from plant toxicant. This study was conducted to evaluate effects of humic acid powder (HA) on composting of livestock manure (LM) and of its application on growth of lettuce. Treatments were designed as follows; livestock manure compost (LM+sawdust+bark+castor meal; Control), control+0.1% HA (0.1% HA), control+0.5% HA (0.5% HA), control+1.0% HA (1.0% HA), control+3.0% HA (3.0% HA), and control+5.0% HA (5.0% HA). The changes of temperature, water content, organic matter content, total nitrogen and ratio of organic matter and nitrogen in HA treatments were similar to those of control. Although pH of 3.0% HA and 5.0% HA blending with HA and LM was lower than those of others, it unaffected by HA blending during composting. Humic acid content of HA treatments was increased by 1.7~4.4 folds than that of control. As compared with odor index, 3.0% HA and 5% HA were decreased than control for composting time. Application of 3.0% HA increased the dry weight of lettuce by about 7% than that of control. 농업에서 부식산은 양이온치환능력이 높아 토양의 완충능력이나 보비력을 개선하는 토양개량제나 기능성비료로 이용되어 왔다. 본 연구는 퇴비화에서 부식산의 이용가능성을 평가하기 위하여, 가축분퇴비 원료에 부식산분말을 처리 후 퇴비화 특성변화와 퇴비의 시비에 따른 상추의 생육효과를 조사하였다. 처리구는 대조구, 부식산분말 0.1% 처리구(0.1% HA), 부식산분말 0.5% 처리구(0.5% HA), 부식산분말 1.0% 처리구(1.0% HA), 부식산분말 3.0% 처리구(3.0% HA),부식산분말 5.0% 처리구(5.0% HA)로 설정하였다. 부식산분말 처리 후 온도, 수분 함량, 유기물 함량, 질소 함량 및 유기물대 질소비는 처리구별 차이를 나타내지 않았다. 퇴비원료 배합 후 3% HA 처리구와 5.0% HA 처리구의 pH는 다른 처리구보다 낮았으나 퇴비화동안에는 차이를 나타내지 않았다. 부식산분말 처리 퇴비의 부식산 함량은 대조구보다 1.7~4.4배 더 높았고, 악취지수는 3.0% HA 처리구와 5.0% HA 처리구에서 감소하였다. 부식산분말 처리 퇴비 처리구 중 3.0% HA 처리구에서 상추의 건물중은 대조구보다 약 7% 증가하였다.
김영선(Young Sun Kim),이태순(Tae Soon Lee),조성현(Sung Hyun Cho),정제용(Je Yong Jeong),안지예(Ji Ye An),이종진(Jong Jin Lee),한기필(Ki Pil Han),홍주화(Joo Hwa Hong) 유기성자원학회 2017 유기물자원화 Vol.25 No.3
유기질비료 원료로서 가공계분은 질소, 인산, 칼리함량이 높고 본 연구는 수분조절제의 종류에 따라 다른 특성을 나타낸다. 본 연구는 수분조절제로서 톱밥과 피트모스를 혼합하여 발효한 두 종류의 가공계분을 혼합유기질비료의 원료로 이용하였을 때, 배합비율별 유기질비료의 이화학적 특성 및 작물생육 특성을 조사하였다. 톱밥이나 피트모스를 수분조절제로 첨가하여 발효시킨 가공계분이 함유된 혼합유기질비료는 가공계분이 10∼30 % 함유된 혼합유기질비료에서 비료공정규격에 적합하였다. 톱밥 가공계분(PMCS)이나 피트모스 가공계분(PMCP)을 10∼30 %정도 함유한 혼합유기질비료 처리구는 작물의 생육(건물중)이 증가하였다. 가공계분별배합비율과 작물생육지수와 상관관계를 조사한 결과, PMCS 함유 혼합유기질비료와 작물의 생육 지수에서 영향을 미치지 않았고, PMCP 함유 혼합유기질비료의 시비는 작물의 생육 및 생산량이 증가하였다(P<0.05). 이들 결과를 종합할 때, 가공계분은 혼합유기질비료의 원료로 사용이 가능하였고, 혼합유기질비료 중 가공계분의 적정함유량은 10∼30 %였으며, 시비에 의해 작물 생육이 증가하였다. Poultry manure compost (PMC) as the organic fertilizer sources has a high nutrient content such as nitrogen, phosphate and potassium, and its properties been affected by bulking agent. This study was conducted to evaluate properties of mixed organic fertilizer (MOF) containing PMC composting with sawdust and peat moss as bulking agent, and to measure a characteristics of plant growth by their application. The MOF containing 10∼30 % PMC had a coincidency with its guideline in Korea. As applied with MOF containing PMC composting with sawdust (PMCS) or MOF containing PMC composting with peat moss (PMCP), dry weight of plant was increased in MOF treatments blending with 10∼30 % PMCS or 10∼30 % PMCP. In correlation coefficient between blending ratio of PMC in MOFs and plant growth indexes, PMCS was not significantly different, but its PMCP a positive effect (P<0.05). These results indicated that PMC was able to blend about 10∼30 % as mixed organic fertilizer source, and its application increased in plant growth.