토양검정에 의한 유기자원 시비처방 효과를 구명하기 위하여 유기자원의 질소, 인산, 칼륨 성분 함량에 무기화율을 적용하여 시비량을 설정하고 골든퀸 벼를 대상으로 포장시험을 실시하였다. 1. 초장, 분얼수, 엽색도와 이삭수, 볏짚수량 및 벼 수량은 유기자원과 화학비료처리간 차이가 없었다. 등숙율은 화학비료구에서 가장 낮았으며, 천립중은 무처리구에서 가장 높았다. 2. 현미쌀의 미량원소 중 철은 시비구에서 높았고, 아연은 유기자원구에서 가장 높았으며, 무처리구에서 가장 낮았다. 3. 수확 후 토양화학성 중 산도는 화학비료구에서 높았다. 칼슘과 마그네슘은 시비구에서 높았고, 유효규산함량은 유기자원>화학비료>무처리 순으로 높았다. 4. 벼 수량과 양(+)의 상관이 인정된 토양 화학성은 칼슘, 마그네슘과 유효규산 함량이며, 수량 구성요소로는 이삭수였다. 등숙율과 천립중은 음(-)의 상관이 인정되었다. 벼 수량과 가장 높은 상관을 보인 이삭수(r=0.98)는 토양 칼슘, 마그네슘 및 토양 유효규산과 양(+)의 상관이었다. 5. 화학비료를 대체하기 위하여 토양검정 후 유기자원에 무기화율을 적용하여 시비처방을 한 결과 벼 생육, 볏짚 및 벼 수량에서 유기자원구와 화학비료구의 차이가 없었으며, 현미 쌀의 아연성분과 토양 유효규산함량은 유기자원구에서 더 높아 유기자원으로 화학비료를 대체할 수 있다.
최근 다양한 유기재배 작물의 뿌리를 가해하는 굼벵이류의 피해가 증가하고 있으나, 굼벵이류는 토양 내 발생하는 특징으로 인해 발생시기 및 그 종류에 대한 확인이 어려운 해충이다. 피해를 끼치는 굼벵이의 발생을 파악하기 위해 고구마 유기재배지에 페로몬 트랩을 이용하여 굼벵이의 성충의 종류 및 발생 동향을 조사하였다. 조사지는 무안 유기재배농가와 국립농업과학원 완주군 포장에서 이루어졌다. 3종의 풍뎅이 페로몬 루어를 유인제로 사용하였으 며 6월 초부터 8월 말까지 조사지에 트랩을 설치하여 포획된 풍뎅이를 수집하여 동정을 하였다. 유기재배포장에서 포획된 종은 큰검정풍뎅이, 콩풍뎅이, 청동풍뎅이, 녹색콩풍뎅이, 별줄풍뎅이 등의 풍뎅이와 흰점박이꽃무지 등이 주로 채집되었다. 유기재배 고구마포장에서 풍뎅이 발생소장을 조사한 결과 최대로 발생한 시기는 7월초였다.
거미는 산림 및 농작물 해충의 천적으로 알려져 있으며, 겨울철 벼 재배지에서 볏짚이나 논둑 등에 월동한다. 이 연구는 월동시기부터 모내기 전까지 유기 벼 재배지에 서식하는 거미상을 알아보기 위해 수행하였다. 거미의 발생을 조사하기 위해 함정트랩을 이용하였고, 농업과학원 유기재배포장에서 2018년 1월 중순부터 5월 중순까지 2주 간격으로 총 8회에 걸쳐 거미를 채집하였다. 조사가 이루어진 논은 거미가 월동 서식처로 이용할 수 있도록 볏짚을 걷어내지 않은 상태로 유지하였다. 조사 결과 6과 15종 359개체의 거미가 채집되었다. 그 중에서 애접시거미가 119개체(33%)로 가장 많았고, 들늑대거미(23%), 턱거미(17%), 각시긴손접시거미(8%) 순으로 나타났다. 또한 4월 중순(7회)에 가장 많은 개체가 채집되었고, 채집이 이루어질수록 거미의 개체수가 증가하는 경향을 보였다.
본 연구는 유기 벼 재배시 주로 이용되는 유기질비료가 토양화학성과 벼의 생장 및 수량에 미치는 영향을 구명하기 위해 수행되었다. 전남지역 벼 유기재배지에서 많이 이용되고 있는 유기질비료를 Organic fertilizer(이하 OF) I, 식물성 성분이 많이 함유된 비료(쌀겨 위주)를 OF II, 동물성 성분이 많이 함유된 비료를 OF III, 그리고 식물성과 동물성이 혼합된 비료를 OF IV로 나누어서, 벼 이앙 전에 전층시비로 토양에 골고루 처리하였다. 유기질비료내의 탄질율이 상대적으로 낮았던 OF I과 III이 OF II와 IV에 비교하여 시기별로 유기질비료의 질소 무기화가 빠르게 진행되었다. 토양의 시기별 유기물 함량은 유기질비료 투입량이 많았던 OF II와 IV에서 높게 나타났으며, 수확 후 토양의 화학성은 대체적으로 OF II와 IV에서 높게 나타났다. 벼 생장특성은 처리에 따른 차이는 나타나지 않았다.
본 연구는 유기재배 벼 시비에 있어서 주로 이용되는 유기자재가 토양화학성과 벼의 수확량과 품질에 어떠한 영향을 미치는 지를 구명하기 위해서 수행되었다. 전남지역 벼 유기재배에서 양분공급원으로 많이 이용되는 금수강산골드를 compost I으로 하였다. 식물성 성분이 많이 함유된 자재(쌀겨팰렛®)를 compost II, 생선가공부산물을 별도로 추가 제조한 자재(참달콤®)를 compost III, 그리고 동물성과 식물성이 혼합된 자재(한가위®)를 compost IV로 나누어서, 벼 이앙 후에 표층시비로 토양에 골고루 처리하였다. 유기자재내의 탄소 :질소율이 상대적으로 낮았던 compost I과 III가 compost II와 IV에 비교하여 시기별로 유기자재내 질소의 무기태화가 빠르게 진행되었다. 유기자재에 따른 토양의 화학성은 별다른 영향을 받지 않았고 토양의 시기별 유기물 함량은 유기자재 투입량이 많았던 compost II와 IV가 높게 나타났고 이는 biomass C에도 영향을 주었다. 처리에 따른 벼 수확량은 시용 첫해에는 compost I에서 높았지만 시용 2년차와 3년차에는 처리에 따른 차이는 나타나지 않았다.
우리나라 벼 재배지에서는 친환경적 잡초관리를 위해 주로 왕우렁이, 쌀겨 및 오리를 이용하고 있다. 이런 유기농업은 화학농약 40% 감축목표 및 농촌 고령화에 따른 일손부족 등 사회경제적 이유로 인해 해마다 재배면적이 증가 되고 있으나 한편으론 병해충 및 잡초의 발생도 더불어 증가하고 있다. 경남 창녕지역은 최근 따오기 복원 사업 등 우포 생태공원 조성에 따른 벼 유기농업면적이 ‘08년 420ha까지 크게 증가하였는데, 이 지역의 주 유기농법 인 쌀겨 이용 벼 재배지에 최근 자귀풀 발생량 증가와 주로 콩에 발생하는 가로줄노린재 등이 많이 발생하여 주변 벼에도 피해를 주고 있다. 창녕군내 쌀겨 및 왕우렁이 이용 벼 유기농업지에 발생하는 주요 잡초는 피, 올방개, 가막사리, 여뀌바늘, 자귀풀 등이었다. 벼 수확기 전후에 발생된 잡초 우점종 은 올방개 및 피로 각각 m2당 13.0 및 6.0본이었고, 자귀풀은 m2당 0.3본으로 발생량은 적었다. 쌀겨이용 벼 유기농업 재배단지인 창녕 우포 및 신기 두 지 역간 노린재 발생량은 9월 상순까지는 자귀풀보다 콩에서 발생량이 더 많았 으나 9월 하순에는 자귀풀에서 노린재 발생량이 더 많았다. 특히 9월 하순 우 포 및 신기지역 자귀풀 10주당 노린재 발생량은 우포가 889마리, 신기 131마 리로 우포가 월등히 많았고, 노린재에 의한 자귀풀 주변 벼의 반점미율도 우 포 및 신기에서 각각 12.7%, 4.3%로 우포에서 더 높았다. 자귀풀에 발생된 노 린재 종류는 가로줄노린재, 풀색노린재, 톱다리개미허리노린재였고, 가장 우점 종은 가로줄노린재였다.
This study was carried out to investigate the economic value of organic rice production using gelatin ․ chitin microorganisms in eco-friendly complex, Gongsan, Naju city. The soil condition of experiment paddy field was Jeonbuk series and silt loam with a slightly poor drainage. Except for the high effective silicate, the chemical characteristics of soils used were included in the optimum range of paddy soils in Korea. In growth, plant length, tiller number, ear number, and ear length were observed to be higher in conventional paddy fields than organic paddy fields. However, number of grain per panicle and grain filling ratio (%) were higher in organic paddy fields than conventional paddy fields. Incidences of diseases and insect pests were slightly higher in the organic paddy fields. Water weevil, sheath blight, rice leaf roller and rice blast were more occurred in organic paddy field. On the other hand, false smut was higher occurred in conventional paddy field. There was a significant negative correlation between rice sheath blight and rice leaf roller, and rice yield. In the milled rice quality, the quality of organically cultivated milled rices was lower by the increase of broken rice than that of conventionally cultivated milled rices. The quality and palatability of rice were higher in organic cultivation with decreasing of protein content. Net income of conventionally and organically cultivated rice was 360,000 won/10a and 610,000 won/10a, respectively. Premium net income of the organically cultivated rice was 68%.
The study was carried out to develop a mathematical model for evaluating the effect of organic fertilizers in organic rice production systems. A function to simulate the nitrogen mineralization process in the paddy soil has been developed and integrated into ORYZA2000 crop growth model. Inorganic nitrogen in the soil was estimated by single exponential models, given temperature and C:N ratio of organic amendments. Data collected from the two-year field experiment were used to evaluate the performance of the model. The revised version of ORYZA2000 provided reasonable estimates of key variables for nitrogen dynamics and crop growth in the organic rice production systems. Coefficient of determination between the measured value and simulated value were 0.6613, 0.8938, and 0.8092, respectively for soil inorganic nitrogen, total dry matter production, and rice yield. This means that the model could be used to quantify nitrogen supplying capacity of organic fertilizers relative to chemical fertilizer. Nitrogen dynamics and rice growth simulated by the model would be useful information to make decision for organic fertilization in organic rice production systems.
친환경 벼 재배농가에서 혼합유박비료를 관행적으로 이앙 3일 전에 사용함에 따라 분얼 기 이후에 비료효과가 나타나므로 수량이 감소하는 문제를 해결하기 위해 본 연구를 수행 하였다. 실내에서 조사한 혼합유박비료의 무기화는 담수조건에서 7주까지 NH4-N가 증가하 였고, 비담수 조건에서 5주까지 NO3-N가 증가하였다. 벼 이앙 20일에 논토양의 질소무기화 는 이앙 20일 전 처리구가 0.85%로 가장 높았다. 수확기 토양특성은 혼합유박비료 시비시 기에 따라 토양유기물함량을 제외하고 차이가 없었다. 이앙 60일에 초장, 간장, 수장은 이 앙 20일 전 처리구가 가장 길었다. 또한 이앙 20일 전 처리구에서 수수, 등숙비율, 천립중이 높게 나타나 백미수량이 관행처리(이앙 3일 전)에 비해 9% 증가하였다. 백미의 백도와 amylose는 차이가 없었지만, 단백질 함량과 식미치는 이앙 20일과 30일전 처리에서 같은 수 준이었다. 쌀 수량과 품질 등을 혼합유박비료 시용시기와 관계식으로 산출하면 혼합유박비 료의 적정 사용 시기는 이앙 21.3일 전으로 나타났다.
This experiment was conducted to assess changes to the chemical properties of soil and applicability in a case of rice cultivation with organic fertilizers. The investigator applied organic fertilizers to rice cultivation for five years to examine changes to the chemical properties of soil and found that the experiment group of organic fertilizers made an ongoing increase in pH, organism content, and available phosphate content annually compared with the control group with no big differences according to the amounts of organic fertilizers used. As for the yield components, there were no statistical differences in the number of spikelets and grain filling rate between the experiment group of organic fertilizers and the control group. The experiment group recorded a higher level in 1,000 seeds weight and yield than the control group. Experiment Group 4 recorded the highest level at 29.11 kg of 1,000 seeds weight. Experiment Groups 3 and 4, which used 222 kg and 267 kg per 10 a, respectively, recorded 576 kg and 572 kg of yield, respectively, which were 4.7% and 4.1% higher than 549 kg of control group, respectively. As for the quality of brown rice, there were no statistical differences in the head rice percentage between the control and experiment group, both of which were in the range of 83.2-85.7%. As for the protein content, Experiment Groups 3 and 4, both of which used a lot of organic fertilizers, were in the range of 6.9-7.1%, which was lower than 7.5% of control group. Those findings indicate that the long-term application of organic fertilizers can improve the chemical properties of soil and increase the yield more than the conventional method of fertilizer application. The findings also suggest that it will be effective to apply 222 kg of organic fertilizers or more per 10 a.
The purpose of this study is identify chemical changes in yield components of soil using organic fertilizer for cultivating rice and establish reasonable methods of fertilization. In chemical change, comparing the control plot, the soil using organic fertilizer consistently for three years for cultivating rice showed an increase in pH and available phosphate in the experiment plots provided by the organic fertilizer, increase in spikelet number and 1000 grain weight in terms of yield components, and increase in yield in the three-year experiment plots. As for the quality of brown rice, the rate of head rice showed no difference when compared to that of the control plots. As for protein content, it was difficult to identify a statistical significance between the control plots and the experiment plots in 2009, but since 2010, the protein content of the experiment plots has been lower than that of the control plot, indicating that fertilization of organic fertilizer was effective in terms of rice quality. In conclusion, long-term use of organic fertilizer improved the chemical properties of soil and increased yield when compared to practical fertilization. Reasonable fertilization was identified to fertilize the nitrogen component of organic fertilizer to be a level of 12kg/10a.
This experiments was conducted to investigate the influence on organic rice cultivation by continuous use of cow manure in the central region of Korea and investigated productivity of organic rice and feed value, stock carrying capacity of organic rice straw. In the results, application of chemical fertilizer showed higher one of 1st and 2nd year in fresh matter yield (15.77, 30.30ton/ha), dry matter yield (9.90, 13.89 ton/ha), dry matter yield of rice straw (4.88, 7.15ton/ha), dry matter weight of kernel per plant (29.81, 39.99g) and number of kernel per plant (1212.58, 1701units), but there were not significantly differences with each experimental plots in 3rd year. And harvest index showed higher one in application of chemical fertilizer (0.52, 0.48, 0.43) until 3 years. But their quantitative difference between application of chemical fertilizer and cow manure was gradually decreased each year. And the average value of KCP and KTDN showed higher one in application of chemical fertilizer (2.01, 2.94, 1.95 head/ha/yr) until 3 years. However, quantitative difference between chemical fertilizer and cow manure was gradually decreased each year. Especially, application of cow manure showed higher value of 3rd year in KME, but there was not significantly difference with each experimental plots. According to the results, continuous use of cow manure will be reduced their quantitative differences between chemical fertilizer as the year progress in the central region of Korea in terms of productivity of organic rice and feed value, stock carrying capacity of organic rice straw.
벼 재배시 화학비료를 대체하기 위한 유기질비료의 활용성 시험에서 유기질비료의 사용 후 토양의 화학적 특성에서는 pH와 유기물함량은 유기질비료의 시비량이 많을수록 증가하는 경향을 보이고 있다. 생육특성 면에서도 대조구와 비교하여 생육초기에는 유기질비료와 화학비료를 같이 사용한 처리구가 높게 나타나고 있으나 생육후기에서는 유기질비료를 12 kg/10 a를 시비한 처리구7이 엽면적과 생체중, 건물중이 가장 높은 수준이었으며 수량구성요소 면에서는 영화수나 등숙비율은 유의차는 인정되지 않았으며 수량 면에서도대조구와 처리구들이 10 a당 500 kg이상의 수량을 보였고가장 높은 수량은 처리구7이 538 kg/10 a 나타내고 있으며 미질특성 면에서도 대조구와 비교하여 유기질비료의 시비에따라 큰 차이가 나타나지 않고 있다. 벼 재배시 유기질비료로 화학비료를 대체하기 위하여 본 실험을 진행한 결과 유기질비료를 시비할 시에는 토양의 물리성이 개선되는 효과가 나타났으며 벼의 수량구성측면과 현미의 품질측면에도관행적으로 시비하던 화학비료와 비교하여 큰 차이가 없어유기질비료는 화학비료를 대체할 수 있는 비료로서의 효과가 입증되었으며 합리적인 사용량은 10 a당 267 kg을 사용하는 것이 품질과 수량확보 면에서 유리한 것으로 판단된다.
This study was carried out from 2011 to 2012 in order to analyze the cultivation technology system by six organic rice cultivation types in the southern provinces for the purpose of utilizing organic rice farming guidelines. This surveys were conducted by site visit on 8 counties and 115 farms in southern area. Cultivation technology system by six organic rice cultivation types were cultivated by the principle of minimum input or non-input. cropping systems, a mixture of barley and rice, or rice green manure crops were grown. Cultivars were mixture of the local cultivars and Japanese varieties. Soil were managed by a self-manufactured compost, indigenous microorganisms and barley straw without any fertilization. Pest control was mainly practied by purchased eco-friendly organic materials or herbal medication residue and indigenous microbial self-manufactured. Weed was controled by snails and barley straw. In addition, considering the restore of a longtail pitching shrimp and grasshoppers, the function of environmental ecology of six organic rice cultivation type proved to be excellent all. Meanwhile, the productivity of the organic farming per 10a were the order of Life and environment > Natural circulation > Stevia > Ji jang > Art and nature > Taepyoung of Farming Methods, but the farmers received prices showed the opposite tendency. Simple profitability did not show a big difference. But, the productivity of all type of the organic farming were lower then the conventional farming. Finally, If we want to conduct safety and easy farming, we can suggest stevia farming, Natural circulation farming and life and environmental farming out of 6 organic rice cultivation types.
In this study, of currently being implemented organic cultivation in rice, the economic effects of snail agriculture, natural circulation agriculture, stevia agriculture and art nature agriculture were compared and analyzed. Analysis results showed that the economic effects of selling price per 10a, gross margin and agricultural income were increased, compared to those of previous agricultural techniques. In addition, the comparison results of economic effects by agricultural techniques showed that the agricultural income per 10a of organic cultivation were increased from the national average, compared to that of conventional cultivation. These economic effects analysis by agricultural techniques can help in the decision making of farmers for the adoption of agricultural techniques in the future.
This study was conducted to evaluate soil nutrient concentrations and N uptake efficiency of paddy rice as affected by nutrient sources from 2009 to 2011. The treatments included chemical fertilizer, compost, oilcake, oilcake 2X, hairy vetch, vetch+rye, and control. Nutrient applications were made at rates equivalent to approximately 90 kg of actual N per hectare. Oilcake had the lowest C:N ratio from the raw materials, but compost had the highest C:N ratio of 34:1. Soil pH and concentrations of C, N, Ca, and Mg were unaffected by nutrient source treatments. N uptake efficiency was the greatest for oilcake-treated rice compared to those treated by NPK, hairy vetch, and compost in 2009 and 2010. Composttreated rice had the greatest N uptake efficiency in 2011 when the high amount of precipitation occurred.
This study was investigated to evaluate the effects of fertilizer application of surface and broadcast for rice culture on the soil chemical, physical, and microbial properties as well as growth and yield of rice. The application was made with ‘"Dongjin 1’" rice at Jeollanam-do Agricultural Research & Extension Services from 2008 to 2010. Soil organic matter and cation concentrations were increased by surface and broadcast applications, respectively. Plots treated by surface application tended to be higher seasonal N-mineralization rate in the organic fertilizer and seasonal soil organic matter than those of broadcast application. Soil physical properties seemed to be improved by the broadcast application, and soil microbial properties were increased by the surface application. Surface application increased 5% of rice yield compared to that of broadcast.
To investigate a comparison of rice yield and quality by a utilization of green crops using barley and hairyvetch, this study was carried out in rice (Oryza sativa L.) organic cultivation field. Convention barley harvest (CBH), Green barley crop (GBC), Green barley+Green Hairyvetch crop (GB+HVC), and Non-Green crop (NGC) were treated in rice cultivation field. The results obtained as following: 1) Culm length and pancile length in Convention barley harvest (CBH) cultivation were longer than organic cultivation but were not significant difference in all treatments. Yields of milled rice in Green barley crop (GBC) and Green barley+Green Hairyvetch crop (GB+HVC) were by 90.3% and 95.9%, respectively. 2) Protein contents in Green barley crop (GBC) and Green barley+Green Hairyvetch crop (GB+HVC) were by 5.7% lower than 6.6% in Convention barley harvest (CBH) cultivation. Amylose contents in all treatment were similar as range 18.8% to 19.1%. Whiteness contents in Green barley crop (GBC) and Green barley+Green Hairyvetch crop (GB+HVC) were slightly higher by 38.9% and 39.1%, respectively, than 37.7% in Convention barley harvest (CBH) cultivation. 3) Palatability values in Barley harvest (BH) and Non-Green crop (NGC) were slightly higher by 82.0 and 83.8, respectively, than 77.6 in Convention barley harvest (CBH) cultivation. 4) Head rice in Non-Green crop (NGC) was 95.5%, while that of Convention barley harvest (CBH), Green barley crop (GBC), and Green barley+Green Hairyvetch crop (GB+HVC) were slightly low as range 93.8% to 94.2%. White core and belly rice in Convention barley harvest (CBH) cultivation was the highest level by 1.7%. 5) Leaf blast, neck blast, sheath blight, rice stem maggot, rice leaf roller, rice leaf-tier, and green rice leafhopper were occurred lightly in rice field.
This study was carried out to present the measures for the stable organic rice production, farm income increase and consumption revitalization and so on by analyzing economic effects of the organic rice production complex and farmers by cultivation type. The farmers received prices of organic rice and Life and Environment Agriculture (LEA) were 2,965 won and 2,014 won per kilogram, respectively. Finally, the results of the productivity analysis show that LEA produces about 11% lower crop yield compared with the conventional farming. Meanwhile, the profitabilities of the organic farming per 10a were about 15% higher than the conventional farming. But, LEA per 10a was individually 23% lower then the conventional farming.