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문관나무 중국 수집자원의 유전 다양성과 종실 유지 특성
Chanhoon An,Jeongho Song 한국약용작물학회 2016 한국약용작물학술대회 발표집 Vol.2016 No.10
Background : Yellowhorn (Xanthoceras sorbifolium Bunge) is distributed in northeastern region in China. The seeds are oil-rich and used as an edible and/or medicinal additives in China. We investigated genetic indices and molecular variance using ISSR markers and oil contents variance by analyzing fatty acid composition in several artificial populations in China. Methods and Results : Seeds were collected from four discontiguous artificial populations in four area in China : two in Inner Mongolia (IM), one in Liaoning (LN) and one in Shandong (SD). Farm in SD showed the highest number of effective alleles (Ne), Shannon index (I), and expected heterozygosity (He), i.e., 1.598, 0.470, and 0.325, respectively. Crude fat contents in kernel observed as 54.5 g 100 g-1 from SD. In contrast it was observed the lowest contents as 46.5 g 100 g-1 from LN . The fatty acid composition was determined to those of oleic acid (31.3%) from SD. And linoleic acid was determined as 38.1% from LN. These artificial populations have relatively high genetic variation, and within-population variation (23%) was higher than among populations. The artificial populations were divided into two groups, revealing these was little correlation between genetic and geographic distance. Conclusion : This study can provide the important information on genetic variation and contents characteristics. It may be responsible for the programs of improvement and germplasm conservation in the future.
Validation of a Robust Flutter Prediction by Optimization
ChanHoon Chung,SangJoon Shin 한국항공우주학회 2012 International Journal of Aeronautical and Space Sc Vol.13 No.1
In a modern aircraft, there are many variations in its mass, stiffness, and aerodynamic characteristics. Recently, an analytical approach was proposed, and this approach uses the idea of uncertainty to find out the most critical flight flutter boundary due to the variations in such aerodynamic characteristics. An analytical method that has been suggested to predict robust stability is the mu method. We previously analyzed the robust flutter boundary by using the mu method, and in that study, aerodynamic variations in the Mach number, atmospheric density, and flight speed were taken into consideration. The authors’ previous attempt and the results are currently quoted as varying Mach number mu analysis. In the author’s previous method, when the initial flight conditions were located far from the nominal flutter boundary, conservative predictions were obtained. However, relationships among those aerodynamic parameters were not applied. Thus, the varying Mach number mu analysis results required validation. Using an optimization approach, the varying Mach number mu analysis was found out to be capable of capturing a reasonable robust flutter boundary, i.e., with a low percentage difference from boundaries that were obtained by optimization. Regarding the optimization approach, a discrete nominal flutter boundary is to be obtained in advance, and based on that boundary, an interpolated function was established. Thus, the optimization approach required more computational effort for a larger number of uncertainty variables. And, this produced results similar to those from the mu method which had lower computational complexity. Thus, during the estimation of robust aeroelastic stability, the mu method was regarded as more efficient than the optimization method was. The mu method predicts reasonable results when an initial condition is located near the nominal flutter boundary, but it does not consider the relationships that are among the aerodynamic parameters, and its predictions are not very accurate when the initial condition is located far from the nominal flutter boundary. In order to provide predictions that are more accurate, the relationships among the uncertainties should also be included in the mu method.
In Vitro Propagation of Commonly Used Medicinal Trees in Korea
Chanhoon An 강원대학교 산림과학연구소 2019 Journal of Forest Science Vol.35 No.4
Forest medicinal resources, which constitute one of the non-timber forest products, have been regarded as healthy and highly valued products. To meet the increasing demand of the medicinal resources, it is necessary to improve the propagation methods of medicinal plants. In vitro propagation not only allows an opportunity for propagating plants in large numbers but also allows for enhancing the quality and quantity of the desired functional component of a plant by altering the growth factors, such as medium, carbon source, and plant growth regulators influence plant. There have been several studies of in vitro propagation methods, such as axillary bud culture, shooting, and embryogenesis, on Kalopanax septemlobus, Eleutherococcus sessiliflorus, Hovenia dulcis, and Schisandra chinensis in Korea between from 2000 through 2010. Furthermore, there have been attempts to proliferate callus and plantlets for producing useful natural compounds by using bioreactors. Here, we provide an account of the in vitro propagation methods of medicinal trees in Korea based on a review of several micropropagation studies.
In Vitro Propagation of Medicinal Herbs in Korea
Chanhoon An,Jeongho Song 강원대학교 산림과학연구소 2018 Journal of Forest Science Vol.34 No.1
Mass production of forest medicinal plants is related to quality control of raw medicinal materials. Plant tissue culture is an important technology to produce high-quality plant materials. Numerous factors are reported to influence the success of in vitro regeneration of medicinal plants. Embryogenesis is known to be the most effective techniques and it has developed in some medicinal plant species. Various in vitro cultural condition for direct and/or indirect somatic embryogenesis systems have developed in Epimedium koreaum, Bupleurum falcatum, Paeonia lactiflora, Chrysanthemum zawadskii, Houttuynia cordata etc. In this study, we provide the present statue and information of in vitro propagation techniques that is able to apply as an efficient system for rootstock propagation system of forest medicinal plants.