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답전윤환토양(沓田輪換土壤)에서 질소무기화(窒素無機化)의 특성(特性)에 관(關)한 연구
안상배,모타마쯔 테르시아,연병렬,육창수,Ahn, Sang-Bae,Motomatsu, T.,Yeon, Beong-Yeal,Yuk, Chang-Soo 한국토양비료학회 1992 한국토양비료학회지 Vol.25 No.2
답전윤환포장(沓田輪換圃場)에서 토양질소(土壤窒素) 무기화양상(無機化樣相)의 몇가지 특성(特性)을 구명(究明)하여 얻어진 결과(結果)를 요약(要約)하면 다음과 같다. 1. 담수배양(湛水培養)한 질소무기화량(窒素無機化量)은 '90년(年)(2년차(年次))에서는 감자-배추구(區)>대두구(大豆區)>벼연작구(連作區)이었으나 '91년(年)(3년차(年次))에는 감자-배추구(區)>벼연작구(連作區)>대두구(大豆區)의 순(順)이었다. 2. 3년차(年次)('91년(年) 밭 상태조건(狀態條件)에서 생성(生成)된 토양질소무기화량(土壤窒素無機化量)은 감자-배추구(區)에서는 매년윤환구(每年輪換區)<전윤환(田輪換)이지만 대두구(大豆區)에서는 반대(反對)로 매년윤환구(每年輪換區)>전윤환(田輪換)이었다. 3. 토양(土壤)의 전질소(全窒素) 및 전탄소함량(全炭素含量)은 수도연작구(水稻連作區)에 비(比)하여 윤환구(輪換區)에서 낮아졌는데 특(特)히 대두윤환구(大豆輪換區)에서 현저히 낮아졌다. 4. 지력질소(地力窒素)의 판정기준법(判定基準法)으로 이용(利用)되는 인산완충용액법(憐酸緩衝溶液法)에 의한 가급태질소함량(可給態窒素含量)과 담수토양법(湛水土壤法)에 의한 $NH_4-N$ 생성량(生成量)과는 정(正)의 상관관계(相關關係)가 있었다. The rate and pattern of soil nitrogen mineralization were investigated under conditions of a paddy-upland switching cultivation system. Experimental results obtained are as follows 1. Amounts of soil nitrogen mineralized were different in the order of potato-cabbage>soybean>continuous paddy plot for the first year, but potato-cabbage>continuous paddy>soybean plot for the second year, respectively. 2. In the third year cropping under upland condition a higher amount of soil nitrogen was found mineralized at the plot of continuous upland cultivation than at the alternate paddy-upland switching plot in the case of potato-cabbage, on the contrary, however, the higher amount was found at the alternate paddy-upland switching plot in the case of soybean cultivation. 3. The amounts of total soil nitrogen and carbon were lower in paddy-upland switching plots than in continuous paddy plots. This trend is significant in soybean plots. 4. A positive correlationship was found between phosphate buffer solution method for available nitrogen and submerged soil method for $NH_4-N$, both being utilized for the estimation of soil fertility.
벼 깨씨무늬병 발병정도에 따른 논토양, 벼알 및 볏짚에서의 무기성분 비교
예완해,박양호,김이열,탁정순,남영주,심홍식,김용기,연병렬 한국식물병리학회 2009 식물병연구 Vol.15 No.1
In order to study a relationship between soil nutrients and rice brown spot occurrence, paddy field soils, rice grains and straws collected from different paddy fields with different disease degrees of brown spots were analyzed for inorganic nutrients. Brown spot was prevalent in the rice grown in nutrient-deficient soils, which is especially low in macronutrient elements (phosphoric acid, potassium, silicic acids) and micronurients (calcium, magnesium). The soil, however, was high in sodium while organic nutrients and pH level were similar to others. The rice straws with severe brown spot were low in inorganics such as ferrous, copper, T-N, and P2O5 while the rice grains with brown spot were low in ferrous, MgO, Zn, and Mn. In the analysis of field type and nitrogen level, the highest disease severity was found in sandy-type field soil, followed by salty-type field soil and disease severity decreased as application level of nitrogen fertilizer increased. As a summary, the most important factor for effective brown spot control in rice is maintenance of proper nutrients in sandy-type field and control of sodium level in salty-type field soil. In order to study a relationship between soil nutrients and rice brown spot occurrence, paddy field soils, rice grains and straws collected from different paddy fields with different disease degrees of brown spots were analyzed for inorganic nutrients. Brown spot was prevalent in the rice grown in nutrient-deficient soils, which is especially low in macronutrient elements (phosphoric acid, potassium, silicic acids) and micronurients (calcium, magnesium). The soil, however, was high in sodium while organic nutrients and pH level were similar to others. The rice straws with severe brown spot were low in inorganics such as ferrous, copper, T-N, and P2O5 while the rice grains with brown spot were low in ferrous, MgO, Zn, and Mn. In the analysis of field type and nitrogen level, the highest disease severity was found in sandy-type field soil, followed by salty-type field soil and disease severity decreased as application level of nitrogen fertilizer increased. As a summary, the most important factor for effective brown spot control in rice is maintenance of proper nutrients in sandy-type field and control of sodium level in salty-type field soil.