This study was carried out in order to investigate effective aroma components of Korean traditional soy sauce. Volatile aroma compounds were extracted by solvent extraction, TMS esterification of methyl acetate extracts and SDE, and analyzed by GC/MSD. 140 voltile aroma compounds were detected by three different extraction methods. Most abundant volatile compounds were acids and phenols and identified aldehydes, hydrocarbons, ketones, furans, furanone, alcohols, esters, nitrogen compounds, sulfur compounds and thiazoles, too. In the analytical sensory evaluation of soy sauce aroma, there were significant differences between each soy sauce sample in all test item. To sum up, Sweet odor was high in Kyupjang. Nutty odor and traditional soy sauce odor were similarly high in Kyupjang and high concentration soy sauce. Kyupjang had high score in overall odor preference than Chungiangs. The result of multiple regression of soy sauce odor characteristics and gas chromatography pattern demonstrated that offensive and sour odor was affected by octadecanoic acid. Contributive compounds to sweet odor were 1,2-benzenedicarboxylic acid and 3,6-dioxa-2,7-disilacotane. Benzoic acid 4-methyl ethyl ester and nonacotane were identified as major compounds of nutty odor. Contribu live variables of traditional soy sauce odor were benzoic acid 4-methyl ethyl ester and 9,12-octadecadienoic acid. The main factors of odor preference were 3-methyl pentanoic acid, acetic acid, 2,6-dimethyl heptadecane and 3,6-dioxa-2,7-disilacotane.

초임계 이산화탄소를 이용하여 유자(Citrus junos)껍질의 향기성분을 추출하기 위해 동결건조한 유자과피분말을 4, 000psi와 40 에서 운전하면서 이산화탄소의 소비량에 따라 4단계로 분획하여 분획별 향기성분의 특성을 조사하였다. 초임계 이산화탄소에 대한 유자의 향기 성분의 수율은 0.011g/CO_2(L)였으며, 최대추출수율은 8.812g/kg이었다. 초임계 이산화탄소로 추출한 유자과피의 주요향기성분은 dl-limonene, γ-terpinene, linaollo, sabinene, β-myrcene, α-pinene, β-farnesene, α-terpineol 과 terpinolene 등 9종이었다. 분획별 향기성분은 휘발성이 높은 α-pinene, β-myrcene과 dl-limonene은 추출시간이 길어짐에 따라 함량이 감소하였으며, 이와 반대로 휘발성이 낮은 α-terpineol과 β-farnesene은 추출시간이 길어짐에 따라 함량이 증가하였다. 따라서 초임계 이산화탄소로 유자의 향기성분을 추출할 경우 추출시간에 따라 얻어지는 분획의 향기 성분 조성이 서로 다른 것으로 나타났다.

솔잎의 향기성분을 용매분획과 수증기증류법으로 분석한 결과는 다음과 같다. 솔잎을 hexane, ethyl acetate 및 ethanol로 연속적으로 추출하였을 때, 29종의 향기성분이 분리, 확인되었고, 주요 성분은 hydrocarbon이었다. hexane 추출에 의한 솔잎의 주요 향기성분은 α-pinene, β-thujene, trans-caryophyllene, β-cubebene 순으로 높게 나타났다. 솔잎을 hexane으로 추출한 잔사에 ethyl acetate를 가하여 향기 성분을 분석하였을 경우 추출된 향기성분은 α-cubebene, 3,6,9,12,15-petaoxanonadecan-1-ol, camphene, 순으로 높았고, 솔잎을 hexane 및 ethyl cetate로 추출한 잔사에 ethanol을 가하여 분석한 경우는 β-D4-tetrahydropyran, γ-cadinene, 3-ethyl-1,4-hexadiene, α-cubebene등이 주성분이었다. 솔잎을 수증기 증류하여 향기성분을 분석한 결과 44종의 성분이 분리, 확인되었고, hydrocarbon류가 주성분이었다. β-cubebene, trans-caryophyllene, 2-hexenal, T-muurolol, δ-cadinene 순이었다. 수증기 증류법에 의한 방법으로 추출 하였을 때 용매분획 추출시 보다 더 많은 성분이 검색되었고, 용매분획에 따라 추출되는 향기성분의 함량과 조성은 차이가 있었으며, 추출방법에 따라서도 향 기성분의 조성비가 다르게 나타났다.

전통안동식혜를 제조하여 5℃에서 보관하면서 GC와 GC-MS를 이용하여 향기성분의 원인 물질을 분석, 동정하였고 맛성분의 원인물질인 유기산의 변화를 검토하였다. 안동식혜의 주요 향기성분으로는 camphene, sabinene, 1-(1.5-dimethyl-4-hexyl)-4-methyl-benzene, α-zingibirene, farnesene, 2.6-b is-(1.1-dimethylethyl)-4-methyl-phenol, β-sesquiphellandrene, calalene, tetradecanoic acid, hexadecanoic acid 및 9.12-octadecanoic acid 등을 들 수 있었다. 안동식혜의 숙성 및 저장중에 있어서 생성된 향기성분은 2.4-undecadienal, 1H-indole, 2.4-decadienal, isoterpinolene 및 D-nerdiol 5종류이었다. 비휘발성 유기산 함량의 변화를 보면 저장 초기에는 젖산 0.49 mg/100 g이던 것이 19.37 mg/100 g으로 증가하였고 다른 유기산들의 함량 변화는 거의 없었다. 안동식혜의 숙성 및 저장 기간중의 pH의 변화는 차차 감소하였고 산도는 차차 증가하여 저장 6일째 0.41이었다.

딸기 펄프를 Serum과 불용성 펄프로 분리하고 serum만 10%향기성분 회수·첨가하여 저온에서 감압농축후 제조합한 향미특성이 우수한 농축 딸기 펄프의 한 응용예로써, 향미품질을 그대로 유지시킨 파우치형태의 잼을 제조하는 새로운 공정을 개발하였다. 이 방법에 의해 제조된 쨈은 개방농축법에 의해 제조된 쨈에 비해 안토시아닌계 색소, vitamin C함량이 높았으며 GC 크로마토그램 상에서 피크의 갯수와 면적에서 뚜렷한 차이를 나타내었다 또한 표면색깔과 관능적인 품질 면에서도 월등히 우수하여 이 새로운 공정의 가능성이 매우 큰 것을 알 수 있었다.

Background : Matricaria recutita and Dendranthema indicum are known to have effects such as antioxidant and antihypertensive effects, and they are used as processed food materials. Therefore, it is necessary to examine the possibilities as a natural material for cosmetics. This study was carried out to analyze the volatile flavor components of flowers during cultivation in order to examine the possibility of cosmetics using M. recutita and D. indicum. Methods and Results : This experiment was carried out from April to October, 2017 at Unbong-eup (500 m above sea level) in Namwon, Jeollabuk-do. M. recutita and D. indicum were planted in late May. Then, flowers were collected in October and volatile flavor components were analyzed by Solid Phase Micro Extraction (SPME) method. Samples of flowers for component analysis were weighed in 0.4 g each and placed in a 20 ㎖ vial. GC/MS was used with Agilent Technologies 7890A/5975C (Agilent, USA). Column and carrier gas were DB-5MS (30 m × 0.25 ㎜ × 0.25 ㎛) and helium gas, respectively. As a result of the analysis of M. recutita flowers, we identified a total of 24 components. The major flavor components were mono terpenes and ketones. The main compounds were β-ocimene (24.08%), artemisia ketone (22.82%), γ-terpinene (16.65%), cis-3-hexenyl isovalerate (3.92%), artemisiatriene (3.72%) and O-cymene (3.44%). As a result of analyzing the composition of D. indicum flower, we identified 33 kinds of ingredients. The major flavor components were monoterpenes and sesquiterpenes. The main compounds were sabinene (19.67%), trans-oiperitol (13.22%), α-phellandrene (10.05%), myrcene (7.53%), cineole (4.36%), α-terpinene (3.60%) and trans-ocimene (3.57%). Conclusion : We identified 24 flavor components and 33 flavor components in flower of M. recutita and D. indicum, respectively. Eight of the identified or estimated compounds were common to both samples. The reason why the flavor components kinds of M. recutita flowers were few was thought to be due to the influence of collection time. The main flowering period of M. recutita and D. indicum were May and October, respectively, but the use of the samples collected in October seemed to have influenced.

본 연구는 완주에서 재배된 세계 주요 11개 적포도 품종으로 제조된 적포도주의 향기 성분을 headspace-solid phase microextraction 분석법으로 확인하였다. 향기성분은 총 75종이 확인되었다. 아로마화합물은 그들의 OAV 값에 의해 5 그룹으로 나뉘었다. 알콜, 알데하이드, 에스테르, C6 화합물이 11개 적포도주의 주요한 향기성분이었다. Isoamy alcohol 알콜과 phenylethyl 알콜은 11개 포도주에서 공통적으로 꽃향기, 달콤한 향을 나타내는데 중요한 물질이었다. Octanoic acid, ethyl ester, hexanoic acid ethylester은 모든 레드와인에서 과실향과 꽃향, 달콤한 향을 내는 중요한 성분이었다. 1-Hexanol은 모든 포도주에서 분석되었으나 풀향을 나타내는 향으로 나타났다. Chanceller, Malbec, marchel, Nsrsha, Pinot Meunier, Sangiovetto 포도주의 주요 향기성분은 과실 향인 것으로 나타났으며 Cabernet Franc, Cabernet Sauvignon, Sauvignon Vert 포도주의 주요 향기성분은 풀향인 것으로 조사되었다. 또한, MBA와 Narsha 포도주의 경우 꽃향이 주요 향인 것으로 조사되었다. 본 연구 결과를 바탕으로 적포도주용 품종을 육성할 때 선발기준으로 향기성분 분석을 활용할 수 있을 것으로 판단되었다.

This study was conducted to compare the volatile flavor compounds of Artemisia annua L. after extraction by simultaneous steam distillation extraction (SDE) and solid-phase micro extraction (SPME) followed by gas chromatography-mass spectrometry (GC-MS) analysis. Via SDE and SPME processes, 79 (1,254.00 mg/kg) and 39 (488.74 mg/kg) compounds were identified respectively. The compounds extracted by SDE included 27 alcohols, 13 aldehydes, 22 hydrocarbons, 3 esters, 12 ketones, 1 oxide and 1 N-containing compound, on the other hand, using the SPME method, 7 alcohols, 5 aldehydes, 1 ester, 18 hydrocarbons, 7 ketones, and 1 oxide were extracted. The major volatile flavor compounds of Artemisia annua L. isolated by the two methods were caryophyllene oxide, -caryophyllene, camphor, -selinene, -muurolene, 1,8-cineol, (E)-pinocarveol and pinocarvone. β β γ The sesquiterpene named caryophyllene oxide was the most abundant volatile flavor compound with relative contents of 234.16 mg/kg and 195.44 mg/kg obtained by the SDE and SPME methods, respectively. Among the identified volatiles, sabinene, β-pinene, α-terpinene, γ-terpinene, yomogi alcohol, myrtenol, (Z)-nerolidol, p-cymen-8-ol and eugenol were detected by the SDE method only while (E)-anethole and α-cubebene were detected by the SPME method only. This study confirmed that the composition and contents of the volatile flavor compounds vary between different extraction methods. More volatile flavor compounds were identified using the SDE method than the SPME method.

The study compared the juice and wine odorants of the Cheongsoo grape cultivar with those of Chardonnay and Reisling wines. The volatile compounds of the three grape varieties were analyzed using headspace solid-phase microextraction coupled with gas chromatography-mass spectrometry. The most common volatile compounds in the juices from the three cultivars were terpenes, C13-norisoprenoids, etones, alcohols, and aldehydes. Terpenes were established as the most abundant group of volatiles in Cheongsoo grape juice, where as aldehydes predominated in Chardonnay and Riesling juices. Forty-two volatile compounds (acids, alcohols, esters, and others) were detected in the three white wines. The concentration of esters was about four times higher in Cheongsoo wine than in Chardonnay and Riesling wines. Five esters found in the Cheongsoo wine, namely, isoamyl acetate, ethyl butanoate, ethyl hexanoate, ethyl octanoate, and ethyl decanoate, exhibited high odor activity values (OAV) of >1. Furthermore, only Cheongsoo wine had a high OAV for isoamyl acetate odorant, which is associated with banana and sweet aromas. Therefore, the abundant and varied esters are believed to be key volatile fruity/sweet odorants in Cheongsoo wine.

This study was conducted to confirm the usefulness of essential oil components in yuzu and kumquat cultivated in Korea for comparison with those in lemon and lime. The volatile flavor compounds in citrus fruits (yuzu, kumquat, lemon and lime) were extracted for 3 h with 100 mL redistilled n-pentane/diethylether (1:1, v/v) mixture, using a simultaneous steam distillation and extraction apparatus (SDE). The volatile flavor compositions of the samples were analyzed by gas chromatography-mass spectrometry (GC-MS). The aroma compounds analyzed were 104 (3,713.02 mg/kg) in yuzu, 87 (621.71 mg/kg) in kumquat 103 (3,024.69 mg/kg) in lemon and 106 (2,209.16 mg/kg) in lime. Limonene was a major volatile flavor compound in four citrus fruits. The peak area of limonene was 35.03% in yuzu, 63.82% in kumquat, 40.35% in lemon, and 25.06% in lime. In addition to limonene, the major volatile flavor compounds were γ-terpinene, linalool, β-myrcene, (E)-β-farnesene, α-pinene and β-pinene in yuzu, and β-myrcene, α-pinene, (Z)-limonene oxide, (E)-limonene oxide, geranyl acetate and limonen-10-yl acetate in kumquat. Furthermore, γ-terpinene, β-pinene, β-myrcene, geranyl acetate, neryl acetate and (Z)-β-bisabolene in lemon and γ-terpinene, β-pinene, (Z)-β-bisabolene, neral, geranial and neryl acetate in lime were also detected. As a result, it was confirmed that the composition of volatile flavor compounds in four citrus fruits was different. Also, yuzu and kumquat are judged to be worthy of use alternatives for lemon and lime widely used in the fragrance industry.

Although rice has been cultivated as a major food crop for approximately 5,000 years, the interest of customers in ‘scented rice’ is a recent trend in the Korean market. As a part of developing a germinated scented rice variety, the newly bred scented rice variety ‘Cheonjihyang-1 se’ was germinated for 24 h, and changes in profiles of flavor-related volatiles, lipophilic phytonutrients, and fatty acids were investigated. The profiling of volatile compounds by using a headspace-gas chromatography-mass spectrometry (HS-GC-MS) revealed a total of 56 odor-active flavoring compounds; 52 at the pre-germination stage, 51 at the post-germination stage, and 47 common at both stages. The major flavoring compounds were nonanol and benzene, which constituted 11.5% and 6.6%, respectively, of the total peak area in pre-germinated rice, and 19.4% and 6.5%, respectively, in post-germinated rice. Germination induced an increase in 13 flavoring compounds, including 3,3,5-trimethylheptane and 1-pentadecene, which increased by 763 and 513%, respectively by germination. However, we observed a germination-induced decrease in most of the other flavoring compounds. Especially, the most important scented rice-specific popcorn-flavoring compound, 2-acetyl-1-pyrroline, showed 89% decrease due to germination. Furthermore, the germination of scented rice induced a decrease in the content of various phytonutrients. For example, the total contents of phytosterols, squalene, and tocols decreased from 207.97, 31.74, and 25.32 μg g -1 at pre-germination stage down to 136.66, 25.12, and 17.76 μg g -1 , respectively at post-germination stage. The fatty acid compositions were also affected by germination. The composition of three major fatty acids, linoleic, oleic, and palmitic acids, increased from 36.6, 34.2, and 24.4%, respectively, at the pre-germination stage to 37.9, 36.9, and 20.7%, respectively, at the post-germination stage. All these results suggested significant changes in the flavor-related compounds and phytonutrients of the scented rice variety ‘Cheonjihyang-1 se’ during the process of germination, and subsequently the need for developing a more precise process of germination to enhance the flavor and nutritional quality of the germinated scented rice products.

This study was performed to verify the possibility of manufacturing a germinated aromatic rice tea, which was roasted at 200, 250, and 300℃ each for 10, 20, and 30 min. The roasted aromatic rice was analysed physicochemical properties, sensory characteristics and aromatic compounds. The total polyphenol content and DPPH radical scavenging activities of the germinated aromatic rice increased as the roasting temperature and time increased. Total soluble solid contents, turbidity and browning index of the germinated aromatic rice tea also increased was the roasting temperature and roasting time increased. The pH did not change by roasting. The main aromatic components in roasted germinated aromatic rice tea were 2-methyl butanal, 3-methyl butanal, benzaldehyde and nonanal, which increased according to increasing temperature and time. However, those favorable aroma components were decreased at more than 300℃ of roasting temperature. In addition, methyl benzene, pentanol were increased which affect odor aroma. The sensory score of germinated aromatic rice tea also increased with high roasting temperature and time. However, aromatic rice roasted at a higher temperature (300℃) showed lower sensory score. Therefore roasting temperature and time must be controlled for manufactureing high quality of germinated aromatic rice tea, and the optimun roasting conditions were 250℃ and 30 min, which provide best physicochemical characteristics of aromatic rice tea.

본 연구는 과열증기처리 기술을 양파에 적용하여 불쾌취 를 저감화하고, 이를 통해 고품질 양파 가공품 개발 및 소재 화에 활용하기 위한 기초 자료를 확보하고자 과열증기처리 에 따른 양파의 휘발성 물질, 불쾌취 유발 물질과 항산화활 성, 조직감, 관능적 특성 등 품질특성을 분석하였다. 과열증 기처리에 의해 휘발성 향기성분 및 불쾌취와 매운맛의 지표 물질이 저감화됨을 확인하였다. 항산화활성 및 총 페놀성 화합물 함량은 다소 증가하는 경향을 보였으며, hardness, chewiness 등은 확연하게 감소하는 것으로 나타났다. 양파 추출액의 총 가용성 고형분 함량은 처리에 의해 전체적으로 증가하였으며 처리에 따라 기호도 점수가 높아지는것을 확인하였다. 결과적으로 과열증기 처리가 양파의 불쾌취 저감화에 효과적임을 확인할 수 있었다. 본 연구결과는 과 열증기 기술을 적용한 양파의 불쾌취 저감화 및 이를 통한 다양한 고품질 가공품 개발 및 소재화를 위한 중요한 기초 자료로 활용될 수 있으리라 판단되며, 과열증기오븐 처리 를 통해 불쾌취를 조절함과 동시에 생리활성능을 지니는 향기 성분 및 유용성분의 감소는 최소화하는 추가적인 연구 가 필요할 것으로 사료된다.

For developing natural preservatives and insecticide contained in volatile organic compounds of Elsholtzia ciliata and Agastache rugosa, the composition of two plants were analyzed and tested on microorganism survival and insectcide effect from TD-GC-MSD analysis. Main components of Elsholtzia ciliata were elsholtzia ketone, dehydroelsholtzia ketone (82%) and caryophyllene (10%). Main components of Agastache rugosa were estragole (88.2%), dl-limonene (4.5%), and trans-caryophyllene (2%). Inhibition activity of 70% methyl-alcohol extract of A. rugosa against growth of Enterobacter cloacae and Salmonella typhimurium was signifcant effect of observed clear zone and that of E. ciliata was against Pseudomonas aeruginosa, respectively. The mosquito larvae was totally died treated by 0.5g powder of A. rugosa for 3 hours, while 80% of the mosquito larvae was died in E. ciliata powder processing. Mortality of mosquito is the first 5 minutes after the smoked incense treatment showed 65% is E. ciliata and 80% in A. rugos and then finally all mosquito died after 20 minutes.

본 연구는 자생국화 15분류군의 휘발성 향기성분을 다변량 분석을 통해 분류학적 유연관계를 구명하여 그 분류 기준을 제시하고 조경용 및 약용 소재로 이용하기 위한 기초자료로 활용하고자 본 연구를 수행하였다. 국화속 15분류군의 잎을 대상으로 GC/MS 분석 결과, 총 45종의 휘발성 향기성분이 함유된 것으로 나타났으며, camphor, borneol, phytol, α-pinene, camphene, 1,8-cineole 및 germacrene-D 는 모든 분류군에 공통적으로 함유된 것으로 나타났다. 국화속 15분류군은 hydrocarbon류(sabinene, cymene, β-selinene), alcohol류(1-octen-3-ol, cischrysanthenol,hinesol), ketone류(chrysanthenone, camphor), 및 ester류(cis-sabiene hydrate, trans-chrysanthenyl acetate)의 휘발성 향기성분을 바탕으로 주성분 분석과 군집 분석 결과 총 3그룹으로 분류할 수 있었다. Group I은 5분류군의 구절초류를 나타내었으며, 주요 성분은 D-limonene와 m-thymol이었다. Group II는 낙동구절초, 남구절초, 넓은잎구절초, 서흥넓은잎구절초 그리고 마키노 국화로 구성되었으며, linalool와 cis-chrysanthenol, eugenol, 및 chrysanthenone이 주요 성분이었다. Group III은 감국, 흰감국, 가는잎감국, 산국, 키큰산국이었다. 특히, Group I과 II에서는 α-terpineol이 공통적으로 함유되었으나, Group III에서는 검출되지 않았다.

This study was carried to investigate the effect of illite addition on the growth, bioactive components andvolatile compounds of leaf on Saururus chinensis Baill cultivation in greenhouse. Illite addition on Saururus chinensis Baillcultivation resulted no significant effects on the aerial part. However, the root part was highest in 5% illite addition group.Crude oil and ash amount increased as illite additives was increased. Ca of inorganics and free sugars contents were highestin 5% and 20% illite addition, respectively. Hyperoside and isoquercetin of available component on leaf were highest in 5%illite addition group, 4.02㎎/g and 4.31㎎/g, respectively. The volatile compounds in Saururus chinensis Baill leaf culturedwith illite addition amounts were isolated by solid-phase microextraction fiber (polydimethysiloxane 65㎛) and identifed bygas chromatogtaphy mass spectrometry. As the results, the 22 volatile compounds were identified from in Saururus chinen-sis Baill leaf and major volatile compounds were the α-cadinol (18.50%), myristicin (16.46%), methyl-9-methyl-tetrade-canoate (10.22%), and γ-muurolene (9.75%). Especially, the content of α-cadinol was highest in 5% illite addition group andγ-muurolene on overall illite addition group was lower than no addition group.