서해에서 살오징어(Todarodes pacificus) 유생 분포를 파악하기 위해 2013년 - 2015년 춘계(4월)와 추계(11월) 자원조사선 탐구 20호로 18정점에 대해 CTD 관측 및 지름 60 cm, 망목 333 μm의 봉고네트를 이용한 경사 채집을 실시하였다. 조사기간 동안 채집된 유생은 총 4개체로 2014년과 2015년 추계에 각 2개체였으며, 유생의 외투장은 1.5 - 8.3 mm이었다. 조사기간 동안 춘계와 2013년 추계에는 유생이 출현하지 않았다. 유생밀도는 2014년 추계에 0.1 inds./1,000 m3과 0.2 inds./1,000 m3, 2015년 추계에 0.1 inds./1,000 m3과 0.2 inds./1,000 m3로 나타났다. 유생이 채집된 정점에서 배아발달 및 유생의 생존이 가능한 수온대(15 - 24 )는 수심 56 m보다 얕은 곳에 위치하였다.
남산의 소나무림, 신갈나무림 그리고 아까시나무림에서 2008년 1월부터 2009년 12월까지의 월별 낙엽생산량과 토양의 유기탄소량을 조사하였다. 소나무림은 2008년과 2009년 모두 10월에 낙엽생산량이 가장 많았으며, 2008년 1월과 2009년 12월에 낙엽생산량이 가장 적었다. 신갈나무림은 2008년과 2009년 모두 11월에 낙엽생산량이 가장 많았으며, 2월에 낙엽생산량이 가장 적었다. 아까시나무림은 2008년 11월과 2009년 10월에 낙엽생산량이 가장 많았으며, 2008년 1월과 2009년 12월에 낙엽생산량이 가장 적었다. 이것은 한반도 중부에서 상록성의 소나무림이 낙엽성의 참나무숲 보다 더 일찍 낙엽이 진다는 것을 의미한다. 소나무림과 신갈나무림, 아까시나무림의 2년 평균의 낙엽생산량은 7.07, 6.36, 5.02 ton ha-1로 소나무가 가장 많았다. 소나무림과 신갈나무림, 아까시나무림의 2년 평균의 토양유기탄소량은 76.2, 68.6, 72.5 ton C ha-1로 소나무림에서 가장 많았다. 이처럼 소나무숲에서 높게 나타난 것은 남산에서 신갈나무나 아까시나무를 벌목하여 임목밀도가 줄었기 때문이다.
Well-aligned multi-walled carbon nanotubes (MWCNTs) were successfully synthesized by catalytic chemical vapor deposition using a hydrogen sulfide (H2S) additive onto Al/Fe thin film deposited on Si wafers. Transmission electron microscopy images indicated that the as-grown carbon products were thin MWCNTs with small outer diameters of less than 10 nm. H2S plays a key role in synthesizing thin MWCNTs with a large inside hollow core. The well-aligned thin MWCNTs showed a low turn-on voltage of about 1.1 V/μm at a current density of 0.1 μA/cm2 and a high emission current of about 1.0 mA/cm2 at a bias field of 2.3 V/μm. We suggest a possible growth mechanism for the well-aligned thin MWCNTs with a large inside hollow core.
Diethyl phthalate (DEP) is widely spread in the natural environment as an endocrine disruption chemicals (EDs). Therefore, in this study, ultrasound (US) and ultraviolet (UVC), including various applied power density (10-40 W/L), UV wavelengths (365 nm, 254 nm and 185 nm) and frequencies (283 kHz, 935 kHz) were applied to a DEP contaminated solution. The pseudo-first order degradation rate constants were in the order of 10-1 to 10-4 min-1 depending on the processes. Photolytic and sonophotolytic DEP degradation rate also were high at shortest UV wavelength (VUV) due to the higher energy of photons, higher molar absorption coefficient of DEP and increased hydroxyl radical generation from homolysis of water. Sonolytic DEP degradation rate increased with increase of applied input power and the dominant reaction mechanism of DEP in sonolysis was estimated as hydroxyl radical reaction by the addition of t-BuOH, which is a common hydroxyl radical scavenger. Moreover, synergistic effect of were also observed for sonophotolytic degradation with various UV irradiation.
Buckwheat sprouts are a vegetable which provides health benefit with their nutritionally important substances. Buckwheat has been considered as preventive medicine in the last decade. The present study was focused on the reference maps common (Fagopyrum esculentum Möench.) and tatary(Fagopyrum tataricum Gaertn.) buckwheat leaf and stem cultured in light and dark condition. Proteins were extracted from 7-day germinated buckwheat sprout sand separated by two-dimensional electrophoresis(2-DE) with isoelectro focusing gel over pH3 to 10. A total of more than 1520 protein spots were revealed on 2-DE gel, in which 165 proteins were identified in the basis of peptide mass fingerprinting. Functional category analysis indicated that these differentially expressed proteins mainly involved in cellular process, defense responsive, energy production, metabolism, photosynthesis, DNA recombination, DNA replication, seed storage, signal transduction, stress responsive, transcription, translation, and energy transport proteins. The pattern at protein level suggested the important roles for energy and protein metabolism-related proteins in growing sprouts under dark and light condition, accompanied by the activated of the stress responsive and growth condition. The proteomic profiling of common and tatary buckwheat will give insight for understanding buckwheat physiology and application to buckwheat industry.
To facilitate the introgression of F. esculentum into the traits of F. homotropicum, several accessions of the hybrids between these two species were pollinated with F. esculentum as the recurrent parent. The embryo in vitro rescue was performed to increase the recovery of backcross progenies. The F2 generation was more amenable than F1 hybrids to produce backcross progenies. The F1 hybrids were backcrossed twice with common buckwheat (pin-type F. esculentum) (recurrent backcrossing). Also, alternate backcrosses with common buckwheat and F. homotropicum (congruity backcrossing) were carried out. Pollen tube growth of BCF1 × F. esculentum (thrum) and F. homotropicum × BCF1 was the disturbed penetration exceeded for all initial interspecific hybrids, and its requirement was proportionally lower when the common buckwheat was used as the recurrent parent and as the last parent of congruity hybrids. Effects of both common buckwheat and F. homotropicum on seed success rate for hybridization were observed. Growth of hybrid embryos before rescue, regeneration of mature hybrids all increased recurrent and congruity backcrosses and inter-crosses between F1 plants and selected fertile plants of the second congruity backcrosses.
Buckwheat is one of the traditional crops and has become a renewed target of interest or a popular crop as a healthy foodstuff, because it is a good source of cereal protein which is rich with essential amino acids. However, what is critical to our health is that buckwheat contains proteins which cause a allergy. Buckwheat allergy resulting from ingestion is caused by the storage proteins in the grain with molecular weights ranging from 15, 22, 35, 39 and 50 kDa proteins of the inner fractions to low, and there were clear differences in the protein compositions between the inner and outer buckwheat flour fractions. A major allergenic protein of buckwheat is Fag e 1 with molecular weight 22 kDa (BW22KD). Buckwheat allergy is an immunoglobulin E (IgE)-mediated hypersensitive response capable of causing anaphylactic shock. Buckwheat seeds were dissected to endosperm and embryo. From each fraction we extracted proteins and analyzed extracts by SDS-PAGE and 2-DE. On electrophoregrams of endosperm proteins, 6 intense bands were detected. The most intense corresponded to molecular weights ranging from 54 to 65 kDa. These proteins have been reported not to be allergenic. We show here that the allergenic buckwheat seed proteins are found only among embryo proteins. No allergenic proteins were found in the buckwheat endosperm. The results presented here lead to the proposal that patients with hypersensitivity to buckwheat flour should use only fine flour from buckwheat endosperm, as this fraction contains no allergenic proteins. At present, specific protein spots will be selected and in-gel digested for MALDI-TOF-TOF/MS analysis.
To facilitate the introgression of F. esculentum into the traits of F. homotropicum, several accessions of the hybrids between these two species were pollinated with F. esculentum as the recurrent parent. In vitro embryo rescue was performed to increase the recovery of backcross progenies. The F2 generation was more amenable than F1 hybrids to produce backcross progenies. The F1 hybrids were backcrossed twice with common buckwheat (pin-type F. esculentum, recurrent backcrossing). Also, alternate backcrosses with common buckwheat and F. homotropicum (congruity backcrossing) were carried out. Pollen tube growth of BCF1 x F. esculentum (thrum) and F. homotropicum x BCF1 was disturbed penetration exceeded for all initial interspecific hybrids, and its requirement was proportionally lower when the common buckwheat used as the recurrent parent and as the last parent of congruity hybrids. Effects of both common buckwheat and F. homotropicum on seed success rate for hybridization were observed. Growth of hybrid embryos before rescue, regeneration of mature hybrids all increased recurrent and congruity backcrosses, inter-crosses between F1 plants and selected fertile plants of the second congruity backcrosses.