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송요성(Yo-Sung Song),전희중(Hee-Joong Jun),박우균(Woo-Kyun Park),정병간(Beung-Gan Jung),정규석(Kyu-Seok Jung),이기상(Ki-Sang Lee),윤영상(Young-Sang Yoon) 한국토양비료학회 2008 한국토양비료학회지 Vol.41 No.2
In order to establish environmentally friendly phosphorus(P) and potassium(K) fertilizer application rates for rice cultivation in Korea, a field experiment was conducted in two different characterized paddy soils, higher and lower P and K content in soil from 2005 to 2006 in Suwon, Korea. Chuchong which is typical rice variety in Korea, was selected for experiment. Rice yields in base P-K fertilizer level (30-30 kg ha-1) and no P-K fertilizer level were 97~98% and 93~97% of standard P-K fertilizer level (45-57 kg ha-1), respectively. At the lower content of P and K in immatured paddy soil, the yield of no P plot was decreased by 7% compared to that of standard P-K plot. Significant difference in rice yield and yield characteristics was found neither in standard P-K fertilization plot nor in base P-K fertilization plot. There was no significant difference in P and K uptake at the harvest stage between standard P-K fertilizer plot and base P-K fertilizer plot. Phosphorus and K uptake was slightly decreased in no fertilizer plots compared to standard fertilizer plot. Phosphorus and K use efficiency of rice plant in base fertilizer plot was higher than that in standard fertilizer plot. Available phosphorus and exchangeable potassium content in soil at the harvest stage were increased in both standard and base fertilizer plot. But no significant difference of P and K content in ? was found between standard fertilizer plot and base fertilizer plot. Rice quality characteristics such as proportion of brewers rice, damaged kernel, broken rice, and content of amylose and protein were lowered in the base fertilizer plot than the standard fertilized plot, while the proportion of perfect kernel increased in the base fertilizer plot From the results, we generally recommend the base P-K fertilization (30-30 kg ha-1) instead of standard P-K fertilization (45-57 kg ha-1) for rice cultivation in Korea.
Dependence of Nutrient Supplying Capacity on Chemical reactions of Paddy Soil
김유학,김명숙,강성수,전희중,Kim, Yoo-Hak,Kim, Myung-Sook,Kang, Seong-Soo,Jun, Hee-Joong 한국토양비료학회 2009 한국토양비료학회지 Vol.42 No.S2
논토양에서 지속가능한 농업생산 및 환경보호를 위한 양분관리는 토양의 화학반응들에 따른 지표들을 활용하는 것이다. 이 연구는 동일비료 영년시험 결과와 2000년부터 2002년까지 수행된 논토양 유형별 질소수준 시험 결과 등을 토대로 하여, 논토양의 화학작용 및 이와 관련된 양분공급력 지표들을 조사하였다. 논토양의 화학작용은 영양성분의 흡탈착 및 유기물질의 분해를 통한 수소, 전자, 이산화탄소의 생성작용과 이들 물질에 의한 화학작용 등으로 구성되었다. 이러한 토양의 화학작용을 고려한 양분공급력 지표들은 다음과 같았다. 질소의 공급력 지표는 토양유기물 또는 토양단백질이었으며, 인산의 공급력 지표는 유효인산함량이었고, 칼륨의 공급력 지표는 양이온교환용량과 치환성 양이온함량이었다. 한국에서는 논토양의 시비 추천식은 이러한 양분공급력 지표들을 사용하여 설정한 것으로 나타나 환경을 보전하면서 농업생산을 지속적으로 유지할 수 있는 것으로 판단된다. The practice of supplying nutrients for paddy soil with sustaining human health and ecological soundness is to utilize indicators considering soil chemical reactions. The long-term basis experiment of fertilizer and amendment of paddy soil and an experiment of yield response of soil types on nitrogen level from 2000 till 2002were used to search indicators of nutrient supplying capacity related to soil chemical reactions. Chemical reactions of paddy soil was composed of dissociating and/or adsorbing nutrients and of decomposing soil organic matter (SOM) into $H^+$, $e^-$, $CO_2$ in paddy soil. The indicators of nutrient supplying capacity, which were established by considering soil chemical reactions, were SOM or soil protein for nitrogen and available phosphate for phosphorus and cation exchangeable capacity (CEC) and exchangeable potassium for potassium. Korea has used fertilizer recommendation equations established with the indicators of nutrient supplying capacity for paddy soil.