• 한국작물학회지
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• 제37권5호
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• pp.405-412
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• 1992

경운과 무경운 조건에서 수도를 건답휴립직파할 때 질소분시비율이 수도의 생육과 수량성에 미치는 영향을 알기 위하여 직파재배용으로 육성중인 밀양 9005의 건조종자를 6kg / 10a 수준으로 1990년 5월 17일 산파하고, 맥류휴립산파기로 복토하였다. 질소-인산-가리를 15-10-10kg /10a 수준으로 시용하였는데 인산과 가리는 모두 기비로 시용하였다. 질소는 기비 : 담수직후 : 담수 2주후 : 출수 25일전 : 출수기에 요소를 10 : 20 : 30 : 20 : 20%, 20 : 30 : 20 : 20 : 10%, 30 : 40 : 0 : 20 : 10%로 분시하였고, 완효성시비료는 질소가 40%이고, 비효특속기간이 120일인 latex 피복한 요소를 전량기비로 시용하였다. 경운에서는 무경운에 비하여 출수기가 1일 지정되었고, 출수기의 엽면적지수가 컸으며, 도복지수가 적었을 뿐 입묘수, 수량, 수량구성요소, 도복관련형질 및 간기부의 cellulose, hemicellulose, lignin 함량은 차이가 없었다. 질소분시비율간에는 완효성비료 전량기비구에서 간장, 유효경비율, 간기중, 천립중, 수확지수가 더 컸으며, 무경운의 완효성비료 전량시비구에서 수량이 더 높았다. 완효성비료 시용구에서는 생육 초기에는 질소함유율과 흡수량이 가장 낮았지만, 출수기 이후에는 질소함유율과 흡수량은 다른 질소분시구보다 높았다. 분얼수는 완효성비료 시용구에서 가장 낮았고, 생육초기에는 질소의 기비비율이 높을수록 많았으며, 생육중기에는 20 : 30 : 20 : 20 : 10%의 분얼수가 가장 높았지만 유효경비율이 달라 수수는 처리간에 차이가 없었다.

• 한국환경농학회지
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• 제29권1호
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• pp.1-6
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• 2010

Organic farming system in rice paddy is rapidly expanding in Korea. This study was to find out optimum japonica rice cultivars for organic farming. A field research was conducted to evaluate the characteristics of japonica rice cultivars under no-tillage paddy at Doo-ryangmyeon, Sacheon, Gyeongsangnam-do, Korea. The experimental soil was Juggog series (silty clay loam: 56.0% silt, 31.2% clay and 12.8% sand). In experiment, ten lines of Japanese rice cultivars were tested under no-tillage amended with rye (NTR) and no-tillage without cover crop treatment (NTNT). In addition, two Korean japonica rice cultivars as check cultivars were used in this study. The grain yield in NTR was significantly higher in 6.13 Mg $ha^{-1}$ for Kinuhikari, 5.30 Mg $ha^{-1}$ for Komekogane, 5.25 Mg $ha^{-1}$ for Kosihikari, 5.22 Mg $ha^{-1}$ for Mazizbare and 5.12 Mg $ha^{-1}$ for Akitakomachi compared to two Korean rice cultivars (4.57 Mg $ha^{-1}$ for Hwayoungbyeo and 4.00 Mg $ha^{-1}$ for Ilmibyeo) in that order. While, grain yield in NTNT was significantly higher in 4.90 Mg $ha^{-1}$ for Akitakomachi 3.81 Mg $ha^{-1}$ for Hinohikari, 3.74 Mg $ha^{-1}$ for Umezkusi, 3.67 Mg $ha^{-1}$ for Kosihikari and 3.54 Mg $ha^{-1}$ for Dondokuri compared to 3.02 Mg $ha^{-1}$ for Ilmibyeo and 2.36 Mg $ha^{-1}$ for Hwayoungbyeo, respectively. The number of panicle per $m^2$ and grain number per panicle were indispensible for increasing the yield of rice. These results were able to find out optimum japonica rice cultivar Akitakomachi for organic farming in no-tillage paddy.

• 한국토양비료학회지
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• 제40권4호
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• pp.326-329
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• 2007

Quantifying soil organic carbon (SOC) has long been considered to improve our understanding of soil productivity, soil carbon dynamics, and soil quality. And also SOC could contribute as a major soil management factor for prescribing fertilizers and controlling of soil erosion and runoff. Reducing tillage intensity has been recommended to sequester SOC into soil. On the other hand, determination of traditional SOC could barely identify the tillage practices effect. Physical soil fractionation has been reported to improve interpretation of soil tillage practices impact on SOC dynamics. However, most of these researches were focused onupland soils and few researches were conducted on paddy soils. Therefore, the objective of this research was to evaluate paddy soil tillage impact on SOC by physical soil fractionation. Soils were sampled in conventional-tillage (CT), partial-tillage (PT), no-tillage (NT), and shallow-tillage (ST)plots at the National Institute of Crop Science research farm. Samples were obtained at the three sampling depth with 7.5-cm increment from the surface and were sieved with 0.25- and 0.053-mm screen. Soil organic carbon was determined by wet combustion method. Significant difference of SOC contentwas found among sampling soil depth and soil particle size. SOC content tended to increase at the ST plot with increasing size of soil particle fraction. We conclude that quantifying soil organic carbon by physical soil particle fractionation could improve understanding of SOC dynamics by soil tillage practices.

• 한국작물학회지
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• 제62권4호
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• pp.346-351
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• 2017

본 연구는 무경운 재배법을 확립하고자 비료종류와 시비 방법에 따라 콩의 생육 및 수량을 조사하였으며, 주요 결과는 다음과 같다. 1. 경운과 무경운 처리구에서 풋거름, 돈분액비, 화학비료의 비료종류에 따라 콩의 생육이 각각 달랐다. 경운과 무경운 모두 화학비료처리구에서 콩의 생육이 높았으며, 경운유무에 따라서는 경운에서의 생육이 가장 높았다. 2. 엽색도 조사에서는 비슷한 양상으로 증가하였는데 엽색도 함량이 최고에 달했을 때를 비교해보면 무경운-화학비료처리구에서 가장 높았으며, 상대적으로 경운-풋거름처리구에서 엽색도가 낮은 수치를 나타냈다. 3. 콩 종실 1 g 및 0.5 g의 질소, 인, 칼륨의 성분량을 분석했을 때 인과 칼륨의 경우 경운과 무경운 모두 큰 차이를 두지 않고 비슷한 함량을 나타내었으며, 질소는 이와 다르게 돈액비료처리구에서 질소의 함량이 가장 높게 나왔다. 4. 콩 종실의 수량조사에서는 생육조사와는 다르게 무경운-돈분액비에서 수량이 가장 높았고, 상대적으로 무경운-관행처리구에서 수량이 가장 낮았다. 무처리구를 제외하고 풋거름처리구의 경우 경운, 무경운 모두 생육양상이 저조함에 따라 콩의 수량도 낮았다.

• 한국토양비료학회지
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• 제44권3호
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• pp.375-379
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• 2011

무경운 논에서 피복작물로 자운영, 볏짚, 헤어리베치, 유채, 호밀 등을 처리하고 토양 깊이별 벼 뿌리의 생육상황과 활성 유기물 함량을 조사하였다. 벼 생육초기 주당 발근량은 무경운 유채 처리구가 256 cm로 가장 양호하였으며 무경운 자운영 처리구는 214 cm, 관행은 176 cm, 무경운 헤어리베치 처리구는 139 cm, 무경운 호밀 처리구는 106 cm, 무경운 녹비무처리는 104 cm, 무경운 볏짚 처리구는 99 cm 순으로 나타났다. 토양 깊이 0-5 cm에서 무경운 볏짚 처리구에서 $128g\;m^{-2}$로 다른 처리구에 비해 유의적으로 높았다 (p<0.05). 무경운 자운영 처리구도 $83.5g\;m^{-2}$로 무경운 볏짚 처리구를 제외한 다른 처리구에 비해 유의적인 차이를 보였으며 무경운 헤어리베치 처리는 $53.0g\;m^{-2}$으로 가장 낮았다. 토양 깊이별 활성 유기물 함량은 0-5 cm 에서 무경운 자운영 처리구가 $1,684g\;m^{-2}$으로 가장 많았으며 무경운 유채 처리구 $1,309g\;m^{-2}$, 무경운 볏짚 처리구 $1,295g\;m^{-2}$, 무경운 호밀 처리구 $1,072g\;m^{-2}$, 무경운 헤어 리베치 처리구 $917g\;m^{-2}$ 순이었고 관행은 $434g\;m^{-2}$, 무경운 녹비 무처리구는 $426g\;m^{-2}$으로 매우 낮은 함량을 보였다. 본 연구결과 무경운 피복작물 작부체계에서 볏짚 처리구와 자운영 처리구는 벼 뿌리 생육과 활성 유기물 함량을 증대시키는 것으로 판단되었다.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.319-319
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• 2017

Methane is the main greenhouse gas released from rice paddy field. Methane from paddy fields accounts for 11 % of the global total methane emission. The global warming potential (GWP) of methane is 25 times more than that of carbon dioxide on a mass basis. It is well known that most effective practice to mitigate methane in paddy is related to the water management during rice growing season and the use of organic matters. This study was conducted to investigate the effects of tillage and cultivation method on methane emission in paddy. Tillage (tillage and no-tillage) and cultivation methods (transplanting and direct seeding) were combined tillage-transplanting (T-T), tillage-wet hill seeding (T-W), tillage-dry seeding (T-D) and no-till dry seeding (NT-D) to evaluate methane mitigation efficiency. Daily methane emission was decreased on seeding treatments (T-W, T-D, NT-D) than transplanting treatment (T-T). Amount of methane emission during rice growing season is highest in T-T ($411.7CH_4\;kg\;ha^{-1}y^{-1}$) and lowest in NT-D treatment (89.7). In T-W and T-D treatments, methane emissions were significantly decreased by 36 and 51 % respectively compared with T-T. Methane emissions were highly correlated with the dry weight of whole rice plant ($R^2=0.62{\sim}0.93$). T-T treatment showed highest $R^2$ (0.93) among the four treatments. Rice grain yields did not significantly differ with the tillage and cultivation methods used. These results suggest that direct seeding practice in rice production could mitigate the methane emissions without loss in grain yield.

• 한국농공학회논문집
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• 제57권1호
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• pp.89-97
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• 2015

This study is to assess the effect of non-point source pollution discharge loads between tillage and no-tillage applications for upland crop areas using SWAT (Soil and Water Assessment Tool) watershed modeling. For Byulmi-cheon small rural catchment ($1.17km^2$) located in upstream of Gyeongan-cheon watershed, the rainfall, discharge and stream water quality have been monitored in the catchment outlet since 2011. The SWAT model was calibrated and validated in hourly basis using 19 rainfall events during 2011-2013. The average Nash-Sutcliffe model efficiency and $R^2$ (determination coefficient) for streamflow were 0.67 and 0.79 respectively. Using the 10 % surface runoff reduction from experiment results for no-tillage condition in field plots of 3 % and 8 % slopes under sesami cultivation, the soil saturated hydraulic conductivity for upland crop areas was adjusted from 0.001 mm/hr to 0.0025 mm/hr in average. Under the condition, the catchment sediment, T-N (total nitrogen, TN), and T-P (total phosphorus, TP) discharge loads were reduced by 6.9 %, 7.4 %, and 7.7 % respectively.

• 한국작물학회지
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• 제36권2호
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• pp.160-165
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• 1991

경운과 무경운 조건에서 수도를 건답휴립직파 재배할 때 질소시비량이 수도의 생육과 수량성에 미치는 영향을 알기 위하여 직파재배용으로 육성중인 밀양 9005의 건조종자를 6kg/10a 수준으로 1990년 5월 17일에 산파하고, 맥류휴립광산파기로 복토하였다. 경운과 무경운에서 각각 질소를 10, 15, 20, 25kg/10a 수준으로 시용하였으며, 시험결과를 요약하면 다음과 같다. 입묘수와 최고분얼수는 경운에서 무경운보다 더 높은 경향이고, 출수기는 경운에서 2일 늦었으나 현미수량, 수량구성요소, 도복관련형질, 질소흡수량 등은 경운과 무경운간에 차이가 없었다. 질소시비량이 증가할수록 수수의 증가로 현미수량이 증가하였으나, 일수영화수와 등숙율은 차이가 없었으며, 천립중은 질소시비량이 증가할수록 약간 감소하였다. 질소시비량이 증가할수록 지상부길이와 bending moment는 커지고, 좌절중과 간기중이 감소하여 도복지수는 증가하였으나 포장에서 도복은 발생하지 않았다. 간기의 cellulose, hemicellulose, lignin함량은 질소시비량간에 차이가 없었다. 질소시비량이 증가할수록 질소함유율과 흡수량이 증가하였다.

• 한국환경농학회지
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• 제36권4호
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• pp.223-229
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• 2017

BACKGROUND: Tillage systems and fertilization play an important role in crop growth and soil improvement. This study was conducted to determine the effects of tillage and fertilization on the microbial biomass C and dehydrogenase activity of soils in a field under cultivation of soybean. METHODS AND RESULTS: An experimental plot, located in the temperate climate zone, was composed of two main sectors that were no-tillage (NT) and conventional tillage (CT), and they were subdivided into four plots, respectively, in accordance with types of fertilizers (non fertilizer, chemical fertilizer, hairy vetch, and liquid pig manure). Microbial biomass C and dehydrogenase activity were evaluated from May to July in 2016. The microbial biomass C and dehydrogenase activity of NT soils were significantly higher than those of CT in all fertilizer treatments, and they were further increased in hairy vetch treatment than the other fertilizer treatments in both NT and CT. The dehydrogenase activity was closely related to microbial biomass C. CONCLUSION: It is concluded that application of green manure combined with no-tillage can provide viable management practices for enhancing microbial properties of soil.

• 한국토양비료학회지
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• 제50권6호
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• pp.634-643
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• 2017

No-tillage is an effective practice to save labor input and reduce methane emission from the paddy. Effects of tillage and cultivation methods on carbon accumulation and soil properties were investigated in the treatments of tillage-transplanting (T-T), tillage-wet hill seeding (T-WS), minimum tillage-dry seeding (MT-S) and no-tillage dry seeding (NT-S) of rice. Soil carbon was higher in NT-S and MT-S, compared to T-T and T-WS. In NT-S and MT-S, soil carbon contents were the highest in the top soil (5 cm depth) and decreased with soil depth. In T-T and T-WS, however soil carbon contents showed no significant difference up to soil depth of 15 cm from the top. Carbon content was the highest in the soil particle size under $106{\mu}m$ and decreased as the soil particle size increased. Contents of water-stable aggregates in NT-S and MT-S were higher than those of T-T and T-WS. In NT-S and MT-S, contents of water-stable aggregates were the highest in the top soil and significantly decreased with soil depth while no significant difference up to the soil depth of 15 cm in T-T and T-WS. Available $SiO_2$ contents in the top soil were the highest in NT-S and MT-S while the lowest in T-T and T-WS. It is concluded that minimum or no disturbance of soil in rice cultivation can increase carbon accumulation in the soil, especially in the top layer, and subsequently contribute to the formation of the water-stable soil aggregates.