Studies on Biological Nitrogen Fixation -III. Influences of organic matter sources, kinds and amount of fertilizer nitrogen on the changes of biological N₂-fixation and kjeldahl nitrogen under dark and light condition in submerged paddy soil

생물학적(生物學的) 질소고정(窒素固定)에 관(關)한 연구(硏究) -III. 담수토양(湛水土壤)에서 유기물종류(有機物種類), 질소비종(窒素肥種)과 시비량(施肥量)을 달리했을때 광합성(光合成) 및 타양성질소고정력(他養性窒素固定力)에 미치는 영향(影響)

A green house experiment was conducted to find out the differences in the amount of biologically fixed nitrogen and kjeldahl nitrogen on the different soil texture, kinds and amounts of fertilizer nitrogen under light (photosynthetic $N_2$-fixation) and dark (heterotrophic $N_2$-fixation) condition in submerged paddy soil. The reults obtained were summarized as follows; 1. The amount of biologically fixed nitrogen per mg carbon from different organic matter was obtained as 0.13 mg in glucose, 0.09 mg in rice straw, and 0.07 mg in refused mushroom compost and barley straw under 60 days of incubation. 2. Nitrogen fixing activities were decreased with increase of fertilizer nitrogen and those tendency was pronounced more in sandy soil with application of urea than that of ammonium sulfate. 3. The application of ammonium sulfate in sandy soil under light condition was increased the photosynthetic $N_2$-fixation and the applied urea was remarkably reduced the heterotrophic $N_2$-fixation in sandy soil. The proportion of biologically fixed total nitrogen after experiment in sandy soil was obtained as 25% for dark(heterotrophic $N_2$-fixation) and 75% for light (photosynthetic $N_2$-fixation) condition. On the other hand, very similar biological $N_2$-fixing tendency was obtained between kinds of nitrogen fertilizer and two light condition in clayey soil. 4. The kjeldahl nitrogen was remarkably decreased after experiment under dark condition with application of urea than that of light condition with ammonium sulfate, and no remarkable decreasing tendency was obtained in clayey soil between two kinds of fertilizer nitrogen. 5. The high significant positive correlationship was obtained between calculated biological nitrogen fixation by acetylene reducing activity and kjeldahl nitrogen after experiment under light (y=0.8488X-5.9632, $r=0.9928^{**}$, n=21) and dark (y=0.8795X-7.1056, $r=0.9782^{**}$, n=21) condition. In this experiment condition, conversion factors of 6:1 was obtained from biological nitrogen fixation to soil nitrogen.

논상태(狀態)의 토양(土壤)에서 유기물(有機物)의 종류(種類), 질소비종(窒素肥種) 및 시비량(施肥量)을 달리했을 때 광합성(光合成) 및 타양성질소고정미생물(他養成窒素固定微生物)에 의한 생물학적(生物學的) 질소고정량(窒素固定量)과 Kjeldahl 분석(分析)에 의한 토양중(土壤中) 전질소함량(全窒素含量) 변화차이(變化差異)를 알고저 초자실(硝子室)에서 60일(日) 담수시험(湛水試驗)한 결과(結果)를 요약(要約)하면 다음과 같다. 1. 각종시용유기물중(各種施用有機物中) 탄소(炭素) 1mg당(當) 생물질소(生物窒素) 고정량(固定量)은 glucose 0.13mg, 볏짚 0.09mg, 그리고 양송이 폐상퇴비와 보리짚은 0.07mg이였다. 2. 토양종류(土壤種類)에 따른 질소고정량(窒素固定量)은 질소비종(窒素肥種)에 따라서 상이(相異)했으며 시비량(施肥量)이 증가(增加)할수록 감소(減少)했는데 감소(減少)의 정도(程度)는 유안(硫安)보다 요소시용시(尿素施用時) 현저(顯著)하였다. 3. 광조건별(光條件別) 질소비종(窒素肥種) 및 시비량(施肥量)에 따른 질소고정량(窒素固定量)은 사질토양(砂質土壤)에서 유안(硫安)이 요소(尿素)보다 증가(增加)되었으며 전질소고정량중(全窒素固定量中) 75%는 광합성미생물(光合成微生物)에 의하여 그리고 25%는 타양성질소고정미생물(他養性窒素固定微生物)에 의하여 고정(固定)되었다고 추정(推定)할 수 있었다. 그러나 식질토양(埴質土壤)에서는 광조건(光條件)과 질소비종간(窒素肥種間)에 뚜렷한 차이(差異)는 보이지 않했다. 4. 시험전후토양(試驗前後土壤)의 질소함량(窒素含量)을 보면 사질토양(砂質土壤)은 처리(處理)에 관계(關係)없이 시험후(試驗後) 토양(土壤)의 질소(窒素)가 현저(顯著)히 감소(減少)되었는데 그 정도(程度)는 요소시용구(尿素施用區)의 광차단조건(光遮斷條件)에서 현저(顯著)하였다. 한편 식질토양(埴質土壤)에서 비종간(肥種間)에는 큰차이(差異)를 볼 수 없었으나 광차단조건(光遮斷條件)에서 질소(窒素)의 감소(減少)가 현저(顯著)하였다. 5. Acetylene 환원법(還元法)에 의한 생물질소고정량(生物窒素固定量)과 Kjeldahl 분석(分析)에 의한 전질소함량변화차이(全窒素含量變化差異)는 평균(平均) 6:1의 비율(比率)을 보였다.