Abstract
Major aroma volatile compounds from whole wheat and all-purpose sourdough and their evolution were evaluated through static headspace gas chromatography-mass spectrometry (SHS-GC/MS) analysis during 28 days of fermentation. Sourdoughs were prepared on 1:1 ratio of flour to water (mass to volume) and fermented spontaneously at room temperature. GC/MS measurements for the evolution of aroma volatile compounds were conducted at 24, 168, 336, 504, and 672 hours of fermentation. Whole wheat sourdough contained more aroma volatile compounds (62) than all-purpose sourdough (45). The major aroma volatile compounds of whole wheat sourdough were hydrocarbons, esters, alcohols, ketones, aldehydes, and heterocycles. Meanwhile, aldehydes were dominant in the all-purpose sourdough. During whole wheat sourdough fermentation, a decrease in peak area percent was observed for aldehydes, ketones, and heterocycles, whereas an increase in the case of hydrocarbons. On the other hand, aldehydes dramatically increased in peak area percent for all-purpose sourdough. Aroma volatile compounds emanating from sourdough fermentation can aid consumers as well as manufacturers with regards to the quality, shelf-life, and what characteristic aromas the final bread product will possess.
Highlights
Whole grain products are considered a key component of a healthy diet
Aldehydes and alcohols are formed inside the yeast cell from the degradation of flour amino acids[14] while Lactic acid bacteria (LAB) is responsible for the acidification of sourdough[13]
Peak area percent of aldehydes, ketones, and heterocycles decreased in whole wheat sourdough
Summary
Whole grain products are considered a key component of a healthy diet. Recommendations from the Nutritional Guideline for Filipinos advocate settling for healthy food choices[1]. The U.S Department of Agriculture prescribes at least three servings of whole grain foods should be consumed daily in replacement of refined grain foods[2]. According to different epidemiological studies, whole grain products provide fiber and phytochemicals that can reduce chronic diseases such as lowering of blood pressure[3], type 2 diabetes, cardiovascular disease, weight gain[4], and risks of several types of cancer[5]. Res. Nutr Food Sci Jour., Vol 5(2), 89-99 (2017)
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