동일비료(同一肥料) 장기운용(長期連用)에 따른 벼의 수량과 질소이용효율(窒素利用效率)

Grain Yield and Nitrogen Use Efficiency due to Long-Term Fertilization in Paddy Rice

벼 집약적(集約的) 재배증계하(栽培證系下)에서 화학비료 시용량 절감 및 퇴비의 이용가능성(利用可能性)을 검토키 위하여 영남농업시험장에서 30년간 실시한 동일비료(同一肥料) 장기연용(長期連用)시험을 중심으로 벼 수량성 및 질소이용효율의 연도별 변이를 분석한 결과는 다음과 같다. 동일비료(同一肥料)연용년도별 벼 수량성(收量性)변화는 퇴비단용구에서 통계적으로 유의한 증가를 보인 반면 무비구와 질소결제구에서는 감소의 경향을 보였고, 퇴비(堆肥)의 효과(效果)는 초기(初期) 10년간(年間)은 뚜렷한 차(差)가 없었으나 그 후(後) 점증(漸增)하여 30년(年)이 경과(經過)한 1996년(年)의 수량(收量)은 3요소구(要素區)의 80%수준(水準)이었다. 처리별(處理別) 요소흡수량(窒素吸收量)은 3요소+퇴비구가 $167kg\;ha^{-1}$로 높았으며 질소회수율(窒素回收率)($RE_N$)은 퇴비단용시(堆肥單用時) 0.74로 가장 높은 반면, 인산(燐酸) 및 칼리결제구(缺除區)가 0.30낮았다. 3요소(要素) 시용구(施用區)에서 질소(窒素)의 농업적(農業的) 효율(效率)($AE_N$)은 평균 12.8 kg/kg N인 반면, 질소비료생산성(窒素肥料生産性)($PFP_N$)은 37.7 kg/kg N으로 높았으며 AE_N과 PFP_N 공히 시험초대에는 감소하는 경향을 보였으나 후기 연대에는 $AE-N$의 경우 증감이 없는 반면, $PFP_N$은 증가하였다. $AE_N$와 $PFP_N$ 차(差)를 천연질소공급력(天然窒素供給力)(INS)으로 표시할 수 있으므로 그 차는 3요소(要素)+퇴비구(堆肥區)가 28.4로 3요소구(要素區)에 비해 높았으며 시험년수(試驗年數)가 진행됨에 따라 INS는 더욱 커졌다.

This study was carried out to obtain some information on the sustainability of paddy rice through the long-term variation of nitrogen use efficiency. The experiment was conducted during 30-year with the same amount of N, P, K and compost at Milyang, southern part of Korea. The results were as follows. Grain yield was increased significantly in the plots of compost incorporation only. However, yield productivity was decreased slightly in the plots with nil and unbalanced fertilization. The effects of rice straw compost on grain yield was not clear at the early crop years but was shown slightly at the late period of the experimental. The grain yield in the plots of compost incorporation at 30th crop year was come to about 80% of NPK plots. The amount of nitrogen uptaken by rice plant was the highest as $167kg\;ha^{-1}$ in NPK plus compost incorporation. Recovery efficiency)($RE_N$) was higher as 0.48~0.74 in compost incorporation plots than in other plots of balanced and unbalanced application. Average agronomic efficiency($AE-N$) and partial factor productivity from N fertilizer applied($PFP_N$) during 30 crop years in NPK plots was 12.8 kg/kg N and 37.7 kg/kg N, respectively, and difference of $AE-N$ and $PFP_N$ shown as indigenous soil nitrogen supply(INS) was higher as 28.4 kg/kg N in NPK + compost plot than NPK plot and was widened at the late period of experiment.