Abstract
A study has been conducted to investigate changes of volatile components during soy sauce fermentation. During the fermentation, many volatile components produced may contribute to soy sauce flavor. THe volatile identified by GC-MS werw classified into hydrocarbon (15), alcohol (15), aldehyde (14), ester (14), ketone (9), benzene derivative (11), fatty acid (9), furan (5), terpenoid (18), pyrazine (3), thiazole (1), pyridine (1) and sulfur containing compound (2).
Concentration of compounds found in almost all fermentation steps, such as hexanal and benzaldehyde did. These compounds may be derived from raw soybean, since they were all present in raw soybean and their concentration did not change during fermentation. Concentration of palmitic acid and benzeneacetaldehyde, in general, increased during all fermentation steps. They are probably derived from lipid degradation or microorganism activities. Concentrations of some fatty acids, esters and hydrocarbons, such as linoleic acid, methyl palmitate and heptadecane increased during salt fermentation only. Concentration of some other compounds, such as 2,4 decadienal decreased or undetected during fermentation.
The absence of some volatile compounds, e.g. (E)-nerolidol and (E,E)-famesol in boiled soybean which were previously present in raw soybean may be due to evaporation of these compounds during boiling. Some volatile compounds such as, methyl heptadecanoate and few aromatic alcohols are likely derived from Aspergillus sojae, since these compounds were identified only in 0 day koji.
Key Word : Soy sauce, volatile component, fermentation.
Concentration of compounds found in almost all fermentation steps, such as hexanal and benzaldehyde did. These compounds may be derived from raw soybean, since they were all present in raw soybean and their concentration did not change during fermentation. Concentration of palmitic acid and benzeneacetaldehyde, in general, increased during all fermentation steps. They are probably derived from lipid degradation or microorganism activities. Concentrations of some fatty acids, esters and hydrocarbons, such as linoleic acid, methyl palmitate and heptadecane increased during salt fermentation only. Concentration of some other compounds, such as 2,4 decadienal decreased or undetected during fermentation.
The absence of some volatile compounds, e.g. (E)-nerolidol and (E,E)-famesol in boiled soybean which were previously present in raw soybean may be due to evaporation of these compounds during boiling. Some volatile compounds such as, methyl heptadecanoate and few aromatic alcohols are likely derived from Aspergillus sojae, since these compounds were identified only in 0 day koji.
Key Word : Soy sauce, volatile component, fermentation.
Authors
ApriyantonoA., & YulianawatiG. D. (2010). Change Volatile Components During Soy Sauce Fermentation. Jurnal Teknologi Dan Industri Pangan, 15(2), 100. Retrieved from https://jai.ipb.ac.id/index.php/jtip/article/view/550
Copyright and license info is not available