초록
젓갈의 품질개선을 목적으로 식염의 일부를 KCl, sorbitol, lactic acid와 고춧가루알콜추출물로 대체하여 당근 저식염조기젓($Y_3,\;4\%$ 식염함량)을 재래식젓($Y_1,\;20\%$ 식염함량)과 함께 숙성중의 휘발성성분을 비교분석하였으며 또한 지방산조함의 변화도 실험하였다. 원료조기의 지질구성비율은 중성지질이 $78.1\%$, 인지질이 $21.2\%$, 당지질이 $0.7\%$이었으며 총지질의 조성은 monoene산이 $37.4\%$로 가장 많았고 다음으로 포화산이 $34.8\%$, polyene산이 $27.7\%$이었다. 숙성중에는 polyene산($C_{22:6},\;C_{22:5},\;C_{20:5}$)의 경우 조기젓 $Y_3$이 $Y_1$에 비해 감소폭이 적었으나 전반적으로 둘다 감소한 반면에 포화산($C_{16:0},\;C_{18:0},\;C_{14:0}$)은 계속 증가하였고 monoene산($C_{16:1}\;C_{18:1}$)은 큰 변동이 없었다. 그리고 산가와 카르보닐가등도 숙성중 계속 증가하였으며 알콜을 첨가한 조기젓 $Y_3$은 $Y_1$에 비해 그 함량이 낮았다. 완숙기(숙성 90일경)의 조기젓, $Y_1,\;Y_3$의 전휘발성성분중 33종의 물질을 동정하였는데 주로 탄화수소류(8종), 알콜류(7종), 산류(6종), 알데히드류(4종), 함황화합물(2종), 케톤류(2종), 페놀(1종)과 기타물질(3종)로 구성되어 있었다. 조기젓 $Y_3$에서는 그중 2-ethoxy ethanol이 전체의 $79.36\%$를, $Y_1$에서는 nonadecane이 $75.85\%$를 차지하였다. 그리고 숙성기간중 저급휘발성산(8종), 염기(5종), 가르보닐화합물(9종)을 분리동정하였는데 완숙기의 조기젓 $Y_3$에서는 acetic acid, isovaleric acid, n-caproic acid, n-butyric acid가 휘발성산의 주류이었으며, 카르보닐화합물에서는 ethanal, 2-butanone, butanal등이고 염기에서는 TMA가 대부분이었다. 그리고 재래식젓과 비교하여 볼 때 각휘발성성분조성에는 큰 차이가 없고 함량비가 달랐으며, 조기젓의 냄새성분은 어느 특정성분에 의한 것 이라기 보다 여러 성분들의 상호조화에 의하여 젓갈특유의 풍미를 나타내는 것으로 볼 수 있었다.
By modified method yellow corvenia(called $Y_3$) was prepared with $4\%$ salt, $4\%$ KCl, $6\%$ sorbitol, $0.5\%$ lactic acid and $4\%$ alcohol extract of red pepper to improve the quality of fermented sea food. In this study, changes of volatile compounds and fatty acid composition obtained from modified fermented yellow corvenia($Y_3$) were experimented during fermentation, comparing with conventional fermented yellow corvenia(called $Y_1,\;20\%$ of salt contents). Total lipid of yellow corvenia was composed of $78.1\%$ of neutral lipid, $21.2\%$ of phospholipid and $0.7\%$ of glycolipid. And monoeonoic acid was held $37.4\%$ of fatty acid composition of total lipid and saturated fatty acid ($34.8\%$), polyenoic acid ($27.7\%$) were followed. Saturated fatty acid($C_{14:0},\;C_{16:0},\;C_{18:0}$) in $Y_1,\;Y_3$ increased, polyenoic acid ($C_{22:6}\;C_{22:5}\;C_{20:5}$) decreased while monoenoic acid($C_{16:1}\;C_{18:1}$) in those was little fluctuated during fermentation. Thirty-three kinds of volatile component in whole volatile compounds obtained from $Y_1,\;Y_3$ at 90 days fermentation were identified, and composed of some hydrocarbons (8 kinds), alcohols (7 kinds), acids (6 kinds), aldehydes(4 kinds), sulfides(2 kinds), ketones (2 kinds), one of phenol and 3 kinds of the other components. Among the whole volatile compounds 2-ethoxy ethanol and was held $79.35\%$ in $Y_3$, whereas nonadecane was held $75.85\%$ in $Y_1$. During fermentation 8 kinds of volatile acids, 5 kinds of amines and 9 kinds of carbonyl compounds were also detected. Those volatile acid such as acetic acid, isovaleric acid, n-caproic acid, n-butyric acid were the major portion of total volatile acids in $Y_3$ at 90 days fermentation. Meanwhile, carbonyl compounds such as ethanal, 2-butanone and butanal were the major ones, while TMA held the most part of volatile amines in $Y_3$ during fermentation. From the result of sniff test, the components which are believed to contribute to the characteristic flavor of fermented product $Y_1,\;Y_3$ are deduced to be volatile acid, carbonyl compounds and amines in order. Conclusively, there was little difference in composition of volatile components, but merely a little difference in content of those between $Y_3$ and $Y_1$.