Studies on the Factors Enhancing the Effects of Nitrogen Application of Rice Culture in Korea

수도작(水稻作)에서 시용질소효과 증대요인의 해석적(解析的) 연구

Though it has been widely known the nitrogen effects are influenced by soils, varieties, and mineral nutrients in the rice culture, few analyses in relation to the factors increasing nitrogen effect have been studied in Korea. The effects of potassium and silica on the factors increasing nitrogen effects in paddy soils were investigated in accordance with soil improvement practices and nitrogen application methods for the cultivated varieties. The results obtained are as follows. 1. For 413 paddy fields, the yield from soils without nitrogen application ranged from 200 to 850kg/10a and that from nitrogen application did 350 to 1,051kg/10a. The yield increament by nitrogen application varied 50 to 650kg/10a depending on soils. 2. Soil chemical characteristics for high yield were different between with nitrogen and without nitrogen application. In the without nitrogen application, however, contents of organic matter, phosphorous, potassium and calcium of high yield soils were lower than those of low yield, while the available silica content was higher in the former. 3. The yield increased with nitrogen application up to 22.4kg/10a and thereafter it decreased. These phenomena were supposed to be not be decrease of nitrogen uptake but by lowered silica uptake. 4. Clay soil incorporation, deep plough, and inorganic constituents control such as Ca, Mg, and $Sio_2$ were effective as soil improvement praitices. It was appeared that increases of silica content and Ca/Mg ratio were important to increase nitrogen effects. 5. For the correlation between yield and yield components, it was high between yield and panicle in low nitrogen level and so was it between grain yield and ripening rate in high nitrogen. 6. In the urea and super granule urea application plot, recovery rate of nitrogen by plant and soil was high and yield was remarkable high. 7. Regardless of fertilizer types such as ammonium sulfate and urea, the residual nitrogen was about 4kg/10a in both plots of 5.8 and 11.6kg/10a. N applied. 8. The potassium application to soil enhanced the nitrogen efficiency. It was more effective in low potassium soil. 9. Optimum pH value for gel formation in the 4% sodium silicate solution was approximately 6.6. 10. It was suggested that silica could affect to rice plant growth as the inorganic and organic chemical components.

수도작(水稻作)에 있어서 시용질소(施用窒素)의 효과는 토양(土壤)이나 품종(品種) 및 무기성분(無機成分)의 영향(影響)을 받는 것이 널리 알려져 있으나 효과증진 요인(要因)에 대(對)한 해석(解析)은 많지 않다. 우리나라 답토양(畓土壤)에서 현재(現在) 재배(栽培)되고 있는 품종(品種)들에 대하여 토양개량(土壤改良) 및 시용방법(施用方法)에 따른 질소효과와 질소(窒素), 규산(珪酸) 및 칼리와의 상호관계를 중심(中心)으로 검토한 결과(結果)를 요약(要約)하면 다음과 같다. 1. 전국 413개소(個所) 답토양에서 10a당 정조수량(正租收量)의 범위(範圍)는 무질소구 200~850kg, 질소적정시용구 350~1,051kg이었으며 질소시용(窒素施用)에 의(依)한 증수는 50~650kg으로서 조사(調査)된 답토양간에 수량정도(收量程度)의 차(差)가 컸다. 2. 무질소하(無窒素下)에서 수량(收量)이 높은 토양은 유기물(有機物)과 인산(燐酸) 및 석회(石灰)의 함량(含量)이 높은 반면(反面) 시비구(施肥區)에서 증수량이 많았던 토양(土壤)은 유기물(有機物), 인산(燐酸), 칼리, 석회(石灰) 등(等)의 함량(含量)이 낮으며 유효규산함량이 많은 토양에서 증수효과가 컸다. 3. 질소증시에 따른 수량증가가 22.4kg/10a이상(以上)에서 감소(減少)되는 현상(現象)은 질소흡수량(窒素吸收量) 저하(低下)에서 오는 것이 아니라 규산흡수량(珪酸吸收量) 저하(低下)와 관계가 있는 것으로 나타났다. 4. 토양개량(土壤改良) 방법별(方法別) 효과는 객토(客土), 심경(深耕) 및 Ca, Mg, $Sio_2$의 종합시용(綜合施用)이 효과적이었으며 특(特)히 질소(窒素) 시용효과 증대를 위해서는 $Sio_2$ 및 Ca/Mg 비율(比率)이 높아야 하는 것으로 나타났다. 5. 질소수준(窒素水準)에 따른 수량(收量)과 수량구성요소간(收量構成要素間)의 상관관계는 질소(窒素) 저수준(低水準)에서는 수수와 상관이 높고, 질소(窒素) 고수준(高水準)에서는 등숙율(登熟率)과 상관(相關)이 있었다.