Rhizobium의 Nitrogenase 생성요인(生成要因)과 감염기작(感染機作)을 구명(究明)하고 배양세포(培養細胞)와 Rhizobia의 혼합배양(混合培養)에서 질양고정계(窒養固定係)를 확립(確立)하기 위(爲)하여 황금(黃金), 남천(南川), D68-0099등(等) 세 품종(品種)을 조직배양(組織培養)한 결과(結果)는 다음과 같다. Callus 형성능(形成能)은 배(胚)와 유근(幼根)에서는 양호(良好)하나 배축(胚軸)에서는 전혀 없었으며 2mg/ 2,4-D, 4mg/ NAA에서 가장 양호(良好)하고 2,4-D/Kinetin 조합농도(組合濃度)에서는 0.2mg(2,4-D)/과 0.05mg(Kinetin)/에서 가장 이상적(理想的)이었다. 배양세포(培養細胞)의 성장(成長)에는 2,4-D 2mg/와 2,4-D (0.2mg/)/Kinetin(0.05mg/)일 때가 가장 양호(良好)하며 R. japonicum 019, 011을 접종(接種)하였을때 배양세포(培養細胞)의 성장(成長)은 상당히 둔화되었다. 단일(單一) 아미노산은 배양세포(培養細胞)의 성장(成長)을 저해(沮害) 하였는데 황금(黃金)의 경우 Methionine, Leucine에서 저해(沮害)가 가장 컷으며 다른 아미노산의 첨가(添加)로 저해작용(沮害作用)이 상당히 회복되었다. 부정근(不定根)의 생성(生成)은 2,4-D 2.0mg/에서나 0.2mg/ 2, 4-D/0.05mg/ Kinetin에서 양호(良好)하였다. 배양세포(培養細胞)-Rhizobium의 친화(親和)에 의(依)한 질소고정력(窒素固定力)은 25개(個) 사용(使用) 균주중(菌株中)에서 황금(黃金)에서는 10개(個) 균주(菌株), 남천(南川)에서는 7개(個) 균주(菌株)에서 나타났으며 D68-0099에서는 전혀 나타나지 않았으며 황금(黃金)의 경우(境遇) 85-HG-1 019, 007, 남천(南川)에서는 007, 119등(等)이 높은 활성(活性)을 나타내었다.

토도로카이트(todorokite)는 MnO6 팔면체가 모서리를 공유하는 터널구조에 Mg2+가 포함된 망간산화광물 로, 이의 Cs 흡착 및 고정물질로의 적합성과 효율성을 알아보기 위해 합성된 토도로카이트에 Cs을 이온교환시킨 후 고온 처리 및 용출 실험을 통해 Cs의 용출양을 측정하였다. 본 연구에 사용된 토도로카이트는 Na-버네사이트 (birnessite)를 Mg-부저라이트(buserite)상태로 조성 후 이를 전구물질로 이용하여 합성하였다. Cs을 이온교환시킨 토도로카이트를 고온 처리한 결과, 온도가 증가함에 따라 버네사이트, 하우스마나이트(hausmannite)로 광물상의 변 화가 나타났다. Cs이 이온교환된 토도로카이트는 증류수와 1 M NaCl 용액과 반응 시간을 달리하여 용출량을 측 정하였는데 용출량 변화는 온도구간에 따른 광물상 변화, 반응시간, 반응 용액의 종류에 따라 상이한 용출량을 보 였다. 전반적으로 1 M NaCl과 반응한 시료에서 Na와의 이온교환 반응에 의하여 용출이 더 컸으나 어느정도 Cs의 고정 효과가 있는 것으로 나타났다. 처리 온도가 높을수록 Cs의 용출량은 증가하다 다시 감소하였는데 이는 각 온 도에서 형성된 광물상과 밀접한 관련이 있으며 버네사이트가 형성되면서 용출량은 증가하나 버네사이트가 감소함에 따라 용출량은 다시 감소하고 고온에서 하우스마나이트로 상변화되면서 Cs의 용출량은 급격히 줄어들었다. 이러한 연구 결과는 Cs을 이온교환시킨 토도로카이트의 고온 처리를 통하여 Cs을 효과적으로 고정하고, 확산을 막는 물 질로 활용할 수 있음을 보여준다.

Seasonal changes in the CO2 fixation rate and water-use efficiency in the leaves of six evergreen and two deciduous broad-leaved tree species on Jeju Island, Korea, were measured using a portable photosynthesis analyzer, to identify which species are most efficient in taking up CO2 from the air. The CO2 fixation rate was high in the deciduous species in spring and summer and decreased in fall, whereas it was high in the evergreen species in summer and fall and decreased in winter. The rate remained high in the deciduous tree Prunus yedoensis from spring to fall (> 7.1 μmol CO2/m2/s) and in two evergreen trees, Castanopsis cuspidata var. sieboldii and Cinnamomum camphora, in summer and fall (7.0 9.9 μmol CO2/m2/s). Therefore, these tree species fix atmospheric CO2 effectively. The water-use efficiency was higher in evergreen species than in deciduous species regardless of the season. Exceptionally, it was high in the deciduous species Zelkova serrata in spring and summer (> 100 μmol CO2/mol H2O), suggesting that Z. serrata is a useful tree for dry conditions due to its tolerance of water stress. The regressions of the CO2 fixation rate versus the evaporation rate and stomatal conductance were linear and non-linear, respectively. This suggests that the stomatal activity of leaves plays an important part in CO2 fixation of plants. In conclusion, C. cuspidata var. sieboldii, C. camphora, and P. yedoensis should be planted along roads or in urban spaces for the greening of cities and mitigation of CO2 concentrations in the air.

미세먼지 대응기술이 종전의 관리용이성(PM10, 1차 배출) 중심에서 위해성(PM2.5, 2차 생성) 중심으로 패러다임이 전환된 현시점에서, 입자상 물질뿐만 아니라 초미세먼지 2차 생성 전구물질인 질소산화물(NOx) 제거를 통하여 대기오염을 극복할 수 있는 방안이 사회적으로 요구되고 있는 실정이다. 이에 본 연구에서는 도로이동오염원에서 배출되는 질소 산화물을 효율적으로 제거하기 위한 방안으로 미세먼지 전구체 저감 소재를 도로 및 도로변에 설치되어 있는 기존 콘크리트 구조물에 고정화하기 위한 기초연구를 진행하였다.

We evaluated the radiologic, clinical results and the complications of minimally invasive percutaneous medial plate fixation in distal tibial metaphyseal fracture. From January 2010 to December 2016, 31 patients with distal tibial fracture treated by medial plate fixation using Minimal Invasive Plate Osteosynthesis (MIPO) technique were analyzed. The duration of followup was more than 1 year. We evaluated clinical results by IOWA ANKLE rating system, union time by simple X-ray and complication. The bone union was achieved in all cases at average 16.7 weeks. Average IOWA ANKLE rating score was 90.3 point. At the last follow-up, there was no non-union, angular deformity more than 5 degrees or infection. We concluded that minimal invasive percutaneous medial plate fixation for distal tibial metaphyseal fractures is a safe and useful method if there is no medial wound problem, and it is important to pay close attention to prevent angular deformity during surgery.

We report the good results of two stage treatment in split depression type pilon fractures. A retrospective study of 9 cases among the 12 cases of split depression type pilon fractures from January 2009 to December 2015, who underwent two stage treatment of pilon fractures with minimum 24 months follow-up. And mean follow-up periods are 29 (24-41) months. In the first stage of the operation, reduction of articular surface using minial incision and external fixation were performed. As soft tissue heals, locking compression plate fixation was done with MIPO (Minimally Invasive Plate Osteosynthesis) technique. Radiographic evaluation was graded by the criteria of Burwell and Charnley. And functional assessment of ankle were evaluated by American Orthopaedic Foot and Ankle Society ankle-hindfoot score. Fractures were united in all cases within 17 (12-24) weeks. Radiologic results were showed anatomical reduction in 8 cases and the mean AOFAS score is 87.8 (80-96). The mean range of ankle motion is 44 degree. There are one superficial wound complications and 3 cases of ankle osteoarthritis. Two stage treatment of split depression type pilon fractures is one of the good treatment methods, because of definitive second stage operation is more easier after first stage opertation designed to get early anatomical reduction, and shows good radiological and clinical outcomes.

도시생활폐기물소각재(MSWI ash)을 매립하게 되면 장기적으로 중금속이 침출된다. 급속탄산화를 통하여 MSWI ash 내의 중금속을 탄산염 형태로 고정하여, 중장기적으로 침출을 방지할 수 있다. 본 연구에서는 급속 탄산화 방법을 통하여 소각재인 fly ash의 중금속 저감 및 이산화탄소 저감에 대해 수행하였다. NH4OH, NH4SCN, 및Ca(OH)2를 이용하여 test 하였으며, 소각재의 중금속을 탄산화 전, 후를 비교하여 중금속이 침출량을 비교 하였다. 추가적으로 이산화탄소가 fly ash에 포집된 이산화탄소 저감량을 나타내면서 이산화탄소 흡수제의 재사용 가능성을 확인하였다. 흡수제를 재생하는 과정에서 나온 CO32-이온에 의해 탄산화 된 금속염들의 성분 분석을 위해, XRD (X-ray diffraction analyzer(Ultima Ⅳ))를 사용하였다. 그리고 FE-SEM(Field emission scanning electron microscope, JEOL-7800)으로 filtering후 건조시킨 샘플과 fly ash의 표면구조를 촬영하고 비교하였다.

In order to cope with some drawbacks of conventional CCS (Carbon Capture and Storage) technologies, the new way to deal carbon dioxide have been studied a lot. One way to deal emitted carbon dioxide is to convert carbon dioxide into metal carbonate salt which can be used for various purposes such as raw materials for construction, additives for paper-making industries and so on. In this method, securing the source for metal cation is important and in this research, concentrated industrial wastewater was used to supply metal cation. In the wastewater, calcium and magnesium ions were dissolved and this could make cpatured carbon dioxide to be converted to metal carbonate salts. As a result of the chemical conversion, the amount of carbon dioxide converted to the precipitated salts and the crystal structures of them were suggested. To verify the crystal structures and the composition of salt mixtures, Scanning Electron Microscope and X-Ray Diffraction analysis were utilized.

Many researchers around the worlds are getting their attention on developing carbon dioxide reduction technologies. In this research, the method to utilize captured carbon dioxide was suggested using industrial wastewater which was produced from refined salt production process. High concentrations of metal carbonates such as calcium, magnesium and so on were contained in them and it could lead to carbon fixation which can lead to utilization of precipitated salts for various purposes. In this research, 30 wt% of monoethanolamine, diethanolamine and methyl-diethanolamine solutions were used as absorbents and precipitated salts were produced as final product. Using X-ray diffraction and Scanning Electron Microscope, crystal structures of the products were verified.

According to a report ‘2012 Present Condition of National Household Refuse Resource Recovery Facility’, about 582,178 tons/year of household refuse were processed in the incineration plant, and 465,087 tons/year of bottom ash and 117,091 tons/year of fly ash were produced respectively. As incineration ash contains many kind of heavy metals such as soluble salt, copper and lead, it may lead to the leaching potential of heavy metals according to the environmental change, so it requires special care in landfill and recycling. In this study CO2 was injected into the bottom ash, so that environmental stability such as leaching of heavy metals was reduced and increased the possibility of CO2 fixation ability of the bottom ash was analyzed. Bottom ash of the household refuse incineration plant of I City was used as the sample of the fixation ability particle size was divided into 3 sections to analyze its components before and after carbonation using XRF. Stability of the sample was identified by the leaching test through KSLT and TCLP, and CO2 fixation ability by the DT-TGA analysis. Test results of the fixation ability shows that stabilization of the bottom ash produced in the household refuse incineration plant by carbonation is evaluated as there is little environmental problem caused by heavy metals when it is utilized into the recycled aggregate, and economic profits can be expected due to securing new agents of the supply and demand for the recycled aggregates, the greenhouse gas emission reduction by CO2 fixation.

The concentration of carbon dioxide in atmosphere is gradually increasing as industrial activity is being facilitated. Since most of the industries are getting their energy from fossil fuels such as coal, petroleum and gas, carbon dioxide production is inevitable. However, by applying suitable carbon capture process at the end of the carbon dioxide emission facilities, the amount of carbon dioxide emitted to atmosphere can be significantly reduced. Thus, Carbon Capture and Storage (CCS) technologies have been developed by many nations. In that technology, captured carbon dioxide is stored in deep ocean or the underground holes. However, considering environmental effects and geological distinct characteristics, CCS technologies are thought to be developed finding new way to handle captured carbon dioxide. One of the method is to turn captured carbon dioxide into precipitated calcium carbonate salt by adding calcium ions. Conventionally, calcium carbonate salt formation is achieved by reaction under high pressure and temperature. However, this method requires large amount of energy to maintain reaction condition. Hence, carbon dioxide reduction and utilization technology through carbon fixation or carbonation in aqueous phase is proposed in this research. Using aqueous absorbent, carbon dioxide is captured and precipitated calcium carbonate salt was formed by adding calcium ions. All of the reaction occurred under ambient temperature and pressure (1 atm, 298.15 K). The amount of carbon dioxide reduction as well as yield of precipitated calcium carbonate salt were considered. Also, through instrumental analysis including Scanning Electron Microscope (SEM), X‐Ray Diffraction (XRD) and Thermogravimetric Analysis (TGA), possibility of final product utilization was investigated.

Mineral carbonation, the return technology of Carbon dioxide into the Nature as a generating source, has been studied by advanced countries. Industrial by-products can be used as economical resource for mineral carbonation. This study is intended as an investigation of effluent recycling of liquid carbonation with carbon dioxide fixation using industrial by-products. The nitrogen and carbon dioxide was used by mixing the same as the exhaust gas concentration 15vol%. Carbon dioxide absorbent was used as Mono Ethanol Amine (MEA) concentration of 5~30wt% and then concentration of carbon dioxide absorption were analyzed. After carbonation reaction, Concentration of dissolved inorganic cations and conversion of carbonation were analyzed by ion chromatography, thermogravimetric, x-ray diffraction, scanning electron microscope(SEM). Effluent was recycled MEA and water using RO system. These results Confirmed potential of CO2 reduction and Utilization of carbonation using industrial by-products.

The principle of treatment of type 2, 3 odontoid process fracture is controversial. The debate is in regard to which is effective between conservative treatment and surgery. We enrolled 41 patients with type 2, 3 odontoid process fracture from January 2007 to December 2011 at Chosun University Hospital. Patients in Group I (GI) received a halo vest and those in Group II (GII) underwent surgery by ant. screw fixation. The bone fusion was classified according to stable bone union, fibrous union, and unstable non-union. Patients in GI received halo vest for a mean period of 4.9 months and those in GII received a neck collar for a mean period of 3.8 months. Tweleve patients in GI and 17 patients in GII had stable bone union. Three patients in GI and two patients in GII had fibrous union. Five patients in GI and two patients in GII had non-union. The halo vest was a good conservative treatment for type 2, 3 odontoid process fracture : however, low bone fusion rate is a problem in particularly old age. However, ant. screw fixation is a better treatment in regard to short surgical time, short fusion time, and high bone fusion rate.

The rate of photosynthesis (A) of leaves from 10 plant species (6 evergreen and 4 deciduous) of the family Fagaceae was measured using a portable photosynthesis analyzer, to examine which species take up CO2 most efficiently. Of the evergreen species, the photosynthetic rate of Castanopsis cuspidata var. sieboldii was highest, and remained above 82.1～106.4 μmol kg-1s-1 from July to November. Of the deciduous species, the photosynthetic rate of Quercus acutissima was higher than that of the other three species, and remained high at 83.5～116.6 μmol kg-1s-1 from September to November. The photosynthetic rate of the 10 species was positively correlated with stomatal conductance (gs) and transpiration rate (E). However, there was no correlation between photosynthetic rate and intercellular CO2 concentration (Ci), although there was a positive correlation just in three species (Q. gilva, Q. acutissima and Q. glauca). These results suggest that the CO2 fixation capacity of C. cuspidata var. sieboldii, an evergreen species, and Q. acutissima, a deciduous species, is significantly higher than that of the other species examined, and that photosynthesis is regulated by both stomatal conductance and transpiration. Therefore, C. cuspidata var. sieboldii and Q. acutissima may be valuable for the evaluation of carbon uptake in urban green spaces as well as in afforested areas.

Nitrogen fíxatíon by legumes can be valuable sources for organíc farmíng. Thís study was to ínvestígate the effect of dífferent legume mixtures on nitrogen fíxatíon and transfer to grasses on sp끼ng paddy fíeld. Three different mixtures were used (rye+haíry vetch, Italían ryegrass+crímson clover, oat+pea) in a randomized complete block design with three replications and sowed ín pots wíth different sowing rate (5:5 rye:haíry vetch,7:3=ltalian:crimson, 6:4=oat:pea) on early March. t 5NH4hS04 solutíon at. 99.8 atom%15N was applied to the each pot at the rate of 2kg N ha.1 on 16h Ap끼1. Forage were harvested at ground level ín heading stage and separated ínto legume and grass. Total N content and 15N value were determíned using a continuous f10w stable ísotope ratio mass spectrometry. DM yield of rye+vetch, Italian+crimson and 。at+pea were 6,607, 3,213 and 4,312kg/ha, respectively. Proportion of N from fixatíon was 0.73(rye+vetch), 0.42(1talian+crimson) and 0.93(oat+pea). The percentages of N transfer from legume to grass were from 61% to 24% in dífferent method by treatments and -35% to 21% in ísotope dilutíon method.

This experiment was conducted to clarify the functions of supernodulating characters on seed yield determination through the comparison of agricultural traits of supernodulating soybean mutants, Kanto100, SS2-2, and their parent cultivars, Enrei and Shinpaldalkong2. The supernodulating soybean mutants Kanto100, SS2-2 were previously characterized by their superior capabilities of nitrogen (N) fixation and photosynthesis, and thereby it is expected to offer high yields. However, it is likely to be susceptible to waterlogging during the vegetative growth stage, which frequently occurs in major soybean producing areas. The presentstudy was intended to show the effects of waterlogging on nodulation, N fixation, photosynthesis and growth of Kanto100 and SS2-2.The supernodulating cultivar Kanto100 and its normally-nodulating parental cultivar Enrei, grown in pots,were subjected to waterlogging treatment that was imposed at the successive three vegetative growth stages for two years,2005 and 2006. The waterlogging treatment significantly reduced the number and weight of nodules of both cultivars, and the magnitude of the reduction was more pronounced in Kanto100 and SS2-2. The acetylene reduction activity (ARA) of nodules and apparent photosynthetic rate (AP) of leaves were generally depressed immediately after waterlogging treatment, but both functions exhibited remarkable recovery at the pod-filling stage irrespective of cultivar. No marked cultivar difference was found in the magnitudeof the reduction of ARA per plant and AP measured immediately after waterlogging and at the pod-filling stage irrespective of year, but growth impairment was more pronounced in Kanto100 and SS2-2 in one of the two years. These results indicate that Kanto100 and SS2-2 exhibits a marked decrease in dry matter production by waterlogging, but yield decrease is compensated to level similar to that of Enrei and Shinpaldalkong2 because of its enhanced nodule growth during the recovery stage. The supernodulating cultivar Kanto100 and SS2-2 is more susceptible to waterlogging under certain growing conditions than their normally-nodulating parent cultivar.

This research is intended to extrapolate the environmental problem caused by the flower fixation design materials and to find a solution by enabling ecological flower designing through discovering environment friendly materials that fix the flowers and analyzing their utilizations. Such use of pro-environmental materials shall lead changes in awareness among the professional florists as well as the consumers. The result of analyzing 67 flower works produced by the environment friendly flower fixation materials is as follows: 1) The design makes the most use of natural characteristics of the original plants used. 2) The pro-environmental materials were minimized to it functional usage, yet visual beautification was emphasized to make the design harmonized. 3) The design showed excellent coordination with vases. The vase was selected to match the color and shape of the flowers contained in it. This allows the vase to be included as part of the overall design of the work. The 67 flower design works reviewed in this research reveal a common design tendency: the environment friendly fixation materials not only were functionally solid, environmentally safe and recyclable but also played outstanding role as visually beautiful design element. This indeed is a revolutionary finding that could impact on the future of the flower design as a whole.

This experiment was conducted to investigate the soil nitrogen credit of biological nitrogen fixation (BNF) and the nitrogen balance of soybean in soybean-barley cropping systems. Soybean cultivar, Shinpaldalkong2 and barley cultivar, Olbori, were used in soybean mono-cropping (SM), barley monocropping (BM), and barley­soybean double cropping system. The barley-soybean double cropping system was treated with two different levels of nitrogen fertilizers, 0 nitrogen fertilizer (BS-F0), and standard nitrogen fertilizer (BS-F1). Nitrogen and organic matter concentrations in soil of BS-F1 plot on October, 2001 were increased 4.8~%~;and~;5.9~% , respectively, compared with those on October, 2000. The ranges of BNF rate in soybean were 69.1~~ 88.2~% in two years, and the rate was the highest in BS-F0 plot and the lowest in SM plot. The ranges of nitrogen harvest index (NHI) in all treatments were 83.9~~86.7~% . The yield was 270 kg/10a in BS­F1 plot and 215 kg/10a in BS-F0 plot. However, the nitrogen balances were +0.6 kg/10a of gain of soil nitrogen in BS-F0 plot and -0.4 kg/10a of loss of soil nitrogen in BS-F1 plot. In comparisons of SM and BS-F1 plots, although the seed yields were similar in two plots, the loss of soil nitrogen was higher in SM than BS-F1 plot. Overall, our results suggest that barley-soybean double cropping system was more effective in respect to seed productivity and soil nitrogen conservation than soybean monocropping system, and the N credit to following crops by soybean cultivation was identified in soybean double cropping system.