• 한국토양환경학회지
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• 제5권2호
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• pp.99-105
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• 2000

본 연구는 Pb으로 오염된 토양을 Biofilter에 의한 적용가능성을 판단하고 충전물질, bed수 그리고 미생물 접종에 따른 Pb의 이동억제효과의 변화를 Pilot plants의 실험을 하였으며 토양의 분해정도를 CODcr/TOC ratio로써 안정화 지표에 대한 변화를 검토하였다. 생물여과는 오염된 물질을 생물여과상를 통과시켜 충전물질표면에 부착되어있는 생물막의 각종미생물들에 의한 경계면을 통하여 물질의 상호교환 및 전환이 생기며 생물막내에 흡수된 물질을 생물학적으로 처리하는 방법의 일종이다. 본 연구는 오염된 토양에 lead nitrate를 첨가시켜 납을 1,000㎎/kg dry soil로 인공적으로 조제한후 충전물질로는 퇴비, 바이오세라믹 그리고 퇴비와 바이오세라믹을 중량비로 7:3으로 하였고, 1단, 2단, 3단으로 하고 이에따라 생물흡착제로 'Aspergillus niger'를 이용하며 납의 이동억제효과의 변화를 검토하였다.

• International Journal of Industrial Entomology and Biomaterials
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• 제5권2호
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• pp.217-220
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• 2002

Mulberry being a foliage crop is grown extensively for feeding of silkworms and are also used for cattle feeding. These loaves are highly nutritious, which contain various mineral elements and bio-molecules such as carbohydrates, proteins, lipids and other essential amino acids, etc. In the present study, deproteinized mulberry leaf juice was used for preparation of the medium for cultivation of various types of microbes. Results revealed that deproteinized mulberry leaf juice medium is best for isolation of fungi, bacteria and actinomycetes and this medium can be substituted with synthetic media, which are haying the costly ingredients for isolation and identification of bacteria, fungi and actinomycetes. Further, this deproteinized mulberry juice medium can also be used in mass multiplication of useful/beneficial microbes to enhance soil microflora to improve soil fertility and to avoid root diseases. Perspective enterprises can take up the mass multiplication/large-scale production of useful microbes such as Trichoderma, Rhizobium, Pseudomonas and Bacillus to use in mulberry and in other agricultural crops using deproteinized mulberry leaf juice.

• 한국지하수토양환경학회지:지하수토양환경
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• 제21권1호
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• pp.94-103
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• 2016

Landfarming that supplies aerobic biodegradation condition to indigenous microbes in soils is a biological remediation technology. In this research, volatilization and biodegradation rate by indigenous microbes in the soil contaminated with total petroleum hydrocarbons (TPH) were measured. Soils were contaminated with diesel artificially and divided into two parts. One was sterilized by autoclave to remove indigenous microorganism and the other was used as it was. Various moisture contents and number of tillings were applied to the soil to find out proper condition to minimize volatilization and enhance bioremediation. Volatilization of TPH was inhibited and biodegradation was enhanced by increase on moisture content. Tilling was usually used to supply air for microbes, but tillings did not affect the growth of microbes in our study. Enough moisture content and proper aeration are important to control volatilization in landfarming. Also, TPH degradation was a function of the microbe counts (x₁), numbers of tilling (x₂), and moisture content (x₃) from the application of the response surface methodology. Statistical results showed the order of significance of the independent variables to be microbe counts > numbers of tilling > moisture content.

• 한국토양비료학회지
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• 제49권5호
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• pp.480-488
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• 2016

Soil microbes are widely well known to play an important role for sustainable agriculture in terms of crop healthy cultivation and environmental conservation. In this context, the distributional characteristics of soil microbes according to cropping systems were investigated under rice (R)-rice (R), rice (R)-barley (B)-rice (R), and soybean (S)-barley (B)-soybean (S) cropping condition to get basic informations for sustainable agriculture, where barley was grown for winter, in mid-mountainous loam paddy located at the altitude of 285 m above sea level in Sangju area from 2014 to 2015. Estimating from microbial communities by fatty acid methyl ester (FAME) method, a total biomass of bacteria, actinomycetes, and fungi in R-B-R plot was 37% and 40% higher than that in S-B-S and R-R plots, respectively (p < 0.05). In especial, bacteria and fungi were more in R-B-R plot than those in any other ones. B. japonicum, AMF, and mesophilic Bacillus sp. were also greater in S-B-S plot than those. In the community distribution, however, bacteria and actinomycetes showed comparatively high values in S-B-S plot relative to either R-R or R-B-R plot including rice, in which fungi outstanding. In the correlation between microbial biomass and soil properties changed by the cropping, bacteria was positively correlated with C:N ratio; actinomycetes with exchangeable Ca; fungi with available $P_2O_5$ (p < 0.05). While these microbes showed negative response to water stable aggregates of soil.

• 미생물학회지
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• 제12권1호
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• pp.15-24
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• 1974

This experiment has been carried out with a view to elucidating the distribution of Azotobacter and their population size in rhizosphere and sea and designed ro compare the results with some environmental factors. Results of the experiment are summarized as follows: 1) It was observed that the population sizes of Azotobacter were decided upon the moisture content of soil and that the soil pH was one of the most impertant factors influencing the distribution of Azotobacter. 2)Population sizes of Azotobacter in rhizosphere were changed in accordance with the kinds of vegetation on soil: The rhizosphere where bamboo, corn, legume, and oak inhabit showed the largest population size of Azotobacter. On the other hand, rhizosphere of ginseng revealed no Azotobacter. However, the largest population of general fungi were measured at the rhizosphere. 3)Comparing the population sizes of general microbes in rhizosphere with those of non-rhizosphere, the population sizes of microbes in rhizosphere are larger than those of non-rhizosphere. 4)In coastal environments, population sizes of Azotobacter in surface water of sea are similar to those of the soil(mud) of tidal land. But the sizes are generally smaller than those of terrestrial soils.

• 한국환경농학회지
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• 제14권1호
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• pp.28-44
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• 1995

밭토양중 myclobutanil의 분해성과 이 농약이 토양미생물상에 미치는 영향을 검토하기 위하여 살균 ${\cdot}$ 비살균토양과 수분함량, 토양 pH, 토양 온도, 약제처리농도, 토양종류 및 실내 ${\cdot}$ 포장토양등의 조건에 따라 myclobutanil을 처리한후 경시적으로 토양을 채취하여 농약잔류량과 토양미생물수를 조사하였는바 그 결과는 다음과 같다. 회귀식에서 구한 분해반감기로 본 myclobutanil의 분해속도는 살균토양에서보다 비살균토양에서, 실내실험에서보다 포장실험에서, 20ppm처리보다 10ppm처리에서, 그리고 미사질양토에서보다 식양토에서 각각 3.9배, 1.6배, 1.4배 그리고 1.2배 정도 빨랐다. 토양 pH의 차이에 따른 myclobutanil의 분해속도는 pH 9에서 가장 빨랐고 pH 5.5에서 가장 느렸으며, 토양온도의 차이에 따른 myclobutanil의 분해속도는 $27^{\circ}C$ > $37^{\circ}C$ > $17^{\circ}C$ 의 순으로 빨랐고, 토양수분함량별 실험에서 myclobutanil의 분해속도는 차이가 없었다. 살균토양에서의 미생물수는 매우 적었으나 비살균토양에서는 많이 발생되었다. 수분함량, pH, 온도, 처리농도 및 토성의 차이에 따른 myclobutanil의 처리구와 무처리구간의 미생물수를 T-검정한 결과 차이가 나지않았다. 포장실험토양에서 사상균 및 총균수는 myclobutanil 처리구가 무처리구보다 많았으나 실내실험토양에서는 차이가 나지 않았다. Myclobutanil 무처리구내에 있어서 pH, 처리농도, 토성 및 실내.포장조건의 차이에 따른 미생물수는 차이가 나지 않았으나, 포장용수량의 60% 수분함량에서는 40% 수분함량에서 보다 세균이 그리고 토양온도 $17^{\circ}C$에서는 $37^{\circ}C$에서보다 사상균이 각각 많이 발생되었다. Myclobutanil 처리구내에 있어서 pH 및 포장.실내조건의 차이에 따른 미생물수는 차이가 없었으나, 세균과 총균수가 포장용수량의 80%수분함량에서는 40%와 60%수분함량에서보다 많았으며, 방선균의 수는 $17^{\circ}C$에서보다 $27^{\circ}C$에서 그리고 미사질양토에서보다 식양토에서 각각 많았다.

• Environmental Engineering Research
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• 제25권1호
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• pp.29-35
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• 2020

The aim of this study was to estimate the microbial metabolic activity of indigenous soil microbes under the radon exposure with different intensity and times in the secured laboratory radon chamber. For this purpose, the soil microbes were collected from radon-contaminated site located in the G county, Korea. Thereafter, their metabolic activity was determined after the radon exposure of varying radon concentrations of 185, 1,400 and 14,000 Bq/㎥. The average depth variable concentrations of soil radon in the radon-contaminated site were 707, 860 and 1,185 Bq/㎥ from 0, 15, and 30 cm in deep, respectively. Simultaneously, the soil microbial culture was mainly composed of Bacillus sp., Brevibacillus sp., Lysinibacillus sp., and Paenibacillus sp. From the radon exposure test, higher or lower radiation intensities compared to the threshold level attributed the metabolic activity of mixed microbial consortium to be reduced, whereas the moderate radiation intensity (i.e. threshold level) induced it to the pinnacle point. It was decided that radon radiation could instigate the microbial metabolic activity depending on the radon levels while they were exposed, which could consequently address that the certain extent of threshold concentration present in the ecosystem relevant to microbial diversity and population density to be more proliferated.

• 한국지하수토양환경학회지:지하수토양환경
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• 제26권4호
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• pp.20-26
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• 2021

In this work, an indigenous microbial consortium was obtained by selectively cultivating microbes using a long-aged petroleum-contaminated soil (Kuwait) containing recalcitrant petroleum hydrocarbons. The obtained microbial consortium was able to grow on and degrade the remaining petroleum hydrocarbons which could not have been utilized by the indigenous microbes in the original Kuwait soil. The following microbial community analysis using 16S rRNA gene sequencing suggested that the enhanced degradation of the remaining recalcitrant petroleum hydrocarbons by the novel microbial consortium may have been attributed to the selected bacterial populations belonging to Bacillus, Burkholderia, Sphingobacterium, Lachnospiraceae, Prevotella, Haemophilus, Pseudomonas, and Neisseria.

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2004년도 총회 및 춘계학술발표회
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• pp.293-296
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• 2004

The objective of this study was to decide the designing factor for remediaton of the contaminated site. The soil and ground-water samples were analyzed and hydro- geological characteristics was assayed for the survey of pollution level. Also air-permeability test and MPN(most probable number) test were conducted for selecting the designing factor. The contaminants were mainly found in north-west part of the site and were expected to move toward the south. Ex-situ technology was expected more useful than in-situ one with the results of air-permeability test saying that air permeability was relatively low. Additional microbes were expected for remediation efficiency because residual microbes were loosely populated. The choosing of the designing factor was requisite for remediation of contaminated site.

• 생명과학회지
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• 제15권6호
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• pp.851-856
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• 2005

Although valuable microbes have been isolated from the soil for the various productions of useful components, the microbes which can be cultivated in the laboratory are only $0.1-1\%$ of all microbes. To solve this problem, the study has recently been tried for making the valuable components from the environment by directly separating unculturable micrbial DNA in the soil. But it is known that humic acid originated from the soil interrupts various restriction enzymes and molecular biological process. Thus, in order to prevent these problems, this study modified the method separated soil DNA with phenol, CTAB and PEG. In order to compare the degree of purity for each DNA and the molecular biological application process, $A_{260}/A_{280}$ ratio, restriction enzymes, and PCR were performed. In case of DNA by the modified method, total yield of DNA was lower but $A_{260}/A_{280}$ ratio was higher than the previously reported methods. It was confirmed that the degree of purity is improved by the modified method. But it was not cut off by all kinds of tested restriction enzymes because of the operation of a very small amount of interrupting substances. When PCR was operated with each diluted DNA in different concentrations and GAPDH primer, the DNA by the modified method could be processed for PCR in the concentration of 100 times higher than by the previously reported separation method. Therefore, this experiment can find out the possibility of utilization for the unknown substances by effectively removing the harmful materials including humic acid and help establishing metagenomic DNA library from the soil DNA having the high degree of purity.