The Nutritional, Physico-chemical, and Antioxidant Changes during the Production of Soursop Vinegar Influenced by Yeast and Aeration
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Published:2024-02-19
Issue:1
Volume:47
Page:177-189
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ISSN:2231-8542
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Container-title:Pertanika Journal of Tropical Agricultural Science
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language:en
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Short-container-title:JTAS
Author:
Mohd Zaini Nurul Solehah,Na Ng Ree,J. D. Abedelazeez Khudair,Idris Hamidah,Abd Rahim Muhamad Hafiz
Abstract
This study aims to produce soursop vinegar and evaluate how its nutritional composition changes during production. This process offers a solution to convert acidic fruits like soursop into a nutritious product with a longer shelf life. Fresh soursop juice was extracted using a mechanical press, followed by alcoholic and acetous fermentation under different aerobic and anaerobic conditions, with some samples aerated. The nutritional analysis included proximate composition, vitamin C content, acetic acid, pH, and soluble solids (TSS or ºBrix). Results during fermentation showed increased moisture content (90.73–93.99%) compared to the control (78.56%) and a decrease in protein content (0.5–0.61%) when Saccharomyces cerevisiae was present (1.53–1.84% without it). Acetic acid and vitamin C levels remained relatively stable, while ºBrix values significantly decreased (4.83–7.00 ºBrix) compared to the initial 15 ºBrix of the control during fermentation. Aeration during production improved the vinegar’s antioxidative capacity, with the highest enhancement observed when Acetobacter sp. was added. Overall, this study highlights the potential of soursop vinegar to retain the nutritional composition of the fruit, resulting in a healthier, natural product with an extended shelf life.
Publisher
Universiti Putra Malaysia
Reference38 articles.
1. Abadl, M. M. T., Mohsin, A. Z., Sulaiman, R., Abas, F., Muhialdin, B. J., & Hussin, A. S. M. (2022). Biological activities and physiochemical properties of low-fat and high-fat coconut-based kefir. International Journal of Gastronomy and Food Science, 30, 100624. https://doi.org/10.1016/j.ijgfs.2022.100624 2. Abd Rahim, M. H., Hazrin-Chong, N. H., Harith, H. H., Wan-Mohtar, W. A. A. Q. I., & Sukor, R. (2023). Roles of fermented plant-, dairy- and meat-based foods in the modulation of allergic responses. Food Science and Human Wellness, 12(3), 691–701. https://doi.org/10.1016/j.fshw.2022.09.002 3. Abd Rahim, M. H., Wan Mansor, W. N., Abd-Halim, S., & Wui, L. P. (2022). Physicochemical changes of Malaysian Red Ragnar sugarcane juice treated with chemical preservatives during storage. Songklanakarin Journal of Science and Technology, 44(5), 1339–1344. https://doi.org/10.14456/sjst-psu.2022.174 4. Amirah, A. S., Nor Syazwani, S., Radhiah, S., Anis Shobirin, M. H., Nor-Khaizura, M. A. R., Wan Zunairah, W. I., & Nurul Shazini, R. (2020). Influence of raisins puree on the physicochemical properties, resistant starch, probiotic viability and sensory attributes of coconut milk yogurt. Food Research, 4(1), 77–84. https://doi.org/10.26656/fr.2017.4(1).185 5. Aneja, K. R., Dhiman, R., Aggarwal, N. K., Kumar, V., & Kaur, M. (2014). Microbes associated with freshly prepared juices of citrus and carrots. International Journal of Food Science, 2014, 408085. https://doi.org/10.1155/2014/408085
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