ojs2 has produced an error Message: WARNING: mkdir(): Permission denied In file: /var/www/html/ojs246_old/lib/pkp/classes/file/FileManager.inc.php At line: 306 Stacktrace: Server info: OS: Linux PHP Version: 5.6.33-0+deb8u1 Apache Version: Apache/2.4.10 (Debian) DB Driver: mysql DB server version: 5.7.27
ojs2 has produced an error Message: WARNING: assert(): Assertion failed In file: /var/www/html/ojs246_old/plugins/generic/usageStats/UsageStatsPlugin.inc.php At line: 308 Stacktrace: Server info: OS: Linux PHP Version: 5.6.33-0+deb8u1 Apache Version: Apache/2.4.10 (Debian) DB Driver: mysql DB server version: 5.7.27
Shelf Life Extension of Pasteurized Budu Mix | Sukjuntra | งดใช้ระบบ 3-31 กค 66 Burapha Science Journal

Shelf Life Extension of Pasteurized Budu Mix

Jariya Sukjuntra

Abstract


Budu is a fish fermented product with a high salt content. Although salt is used to preserve and prolong the shelf-life of Budu, but it contributes to some disadvantages to consumers who consumed regularly. This study aimed to develop the pasteurized Budu Mix. The ingredients of Budu Mix were Budu residue, 17% brine and caramel. Pasteurizing condition of Budu Mix for 350 ml container was 90°C for 15 min. After processing, the chemical quality of pasteurized and unpasteurized Budu Mix were not different. The moisture, protein, fat, ash and salt contents of pasteurized Budu Mix were 76.68, 5.89, 0.45, 12.03 and 10.16 %, respectively. Pasteurized Budu Mix showed the decreased L*. Sensory evaluation using 5-point hedonic scales was conducted to test the acceptance of 211 consumers. Results exhibited that more than 70% of consumers accepted this product at like to like very much (4-5 scores) on odor, taste and overall-liking with 70.6, 71.6 and 71.5%, respectively. Moreover, 86.3% of consumers required to purchase this product with a main reason of safety (69.8%). For shelf-life valuation, the Q10 values indicated that pasteurized Budu Mix could store at room temperature (30±2°C) for 5.2 months.

                            

Keywords :   Budu Mix,  ferment fish,  pasteurization,  shelf life


Full Text:

PDF

References


AOAC. (2000). Official methods of analysis of association of official chemists (17th). Washinton DC: The

Association of official Analytical Chemists Inc.

BAM. (2001a). Bacteriological Analytical Munual Chapter 3 : Aerobic Plate Count. InEnumeration Yeasts Molds

FDA Bacteriological Analytical Munual (Online).

BAM. (2001b). Bacteriological Analytical Munual Chapter 18 : Yeasts Molds and Microtoxins. In FDA

Bacteriological Analytical Munual (Online).

Bawornruttanaboonya, K., Devahastin, S., Yoovidhya, T., & Chindapan, N. (2015). Mathematical modeling of

transport phenomena and quality changes of fish sauce undergoing electrodialysis desalination.

Journal of Food Engineering, 159, 76-85.

Beddow, C. G., Ardeshir, A. G., & Daud, W. J. (1979). Biochemical changes occurring during the manufacture

of Budu. Journal of Science Food and Agriculture, 30, 1097-1103.

Boonnark, A. (2014). The factors affecting on the southern local food consumption of Thai tourists. Journal of

Cultural Approach, 15 (28), 3-6. (in Thai).

Chaikulsareewath, A., Choopron . C., & Mana, A. (2015). Screening of protease producing halophilic Bacteria

from fermented fish (Pla-ra). Journal of Food Technology, Siam University, 10 (1), 1-8. (in Thai).

Dincer. T., Cakli. S., Kilinc. B. & Tolasa. S. (2010). Amino acids and fatty acid composition content of fish sauce.

Journal of Animal and Veterinary Advances, 9(2), 311-315.

Dissaraphong, S., Benjakul, S., Visessanguan, W., & Kishimura, H. (2006). The influence of storage conditions

of tuna viscera before fermentation on the chemical, physical and microbiological changes in fish sauce during fermentation. Bioresource Technology, 97, 2032-2040.

Egan, H., Kirk, R.S., & Sawyer, R. (1981). Pearson,s Chemical Analysis of Food. London: Churchill

Livingston.

Faisal, M., Islami, S.N.E., Islam, M.N., Kamal, M., & Khan, M.N.A. (2015). Study on microbial and physical

changes in fish sauce during fermentation. Research in Agriculture Livestock and Fisheries, 2, 375.

Giri, A., Osako, K., Okamoto, A., & Ohshima, T. (2010). Olfactometric characterization of aroma active

compounds in fermented fish paste in comparison with fish sauce, fermented soy paste and sauce products. Food Research International, 43, 1027-1040.

Ibrahim, S.M. (2010). Utilization of gambusia (Affinis affinis) for fish sauce production. Turkish Journal of Fisheries

and Aquatic Sciences, 10, 169-172.

Indoh, K., Nagata, S., Kanzaki, K., Shiiba, K., & Nishimura, T. (2006). Comparison of characteristics of

fermented salmon fish sauce using wheat gluten Koji with those using soy sauce Koji. Food Sci. Technol. Res, 12 (3), 206-212.

Jundee, J., Devahastin, S., & Chiewchan, N. (2012). Development and testing of a pilot-scale electrodialysis for

desalination of fish sauce. In Procedia Engineering, 32, 97-103.

Kilinc, B., Cakli, S., Tolasa, S., & Dincer, T. (2006). Chemical, microbiological and sensory changes associated

with fish sauce processing. European Food Research and Technology, 222, 604-613.

Kim, J.H., Ahn, H.J., Yook, H.S., Kim, K.S., Rhee, M.S., Ryu, G.H., & Byun, M.W. (2004). Color, flavor, and

sensory characteristics of gamma-irradiated salted and fermented anchovy sauce. Radiation Physics and Chemistry, 69, 1793-187.

Labza, T.P., & Schmidl M.K. (1985). Accelerated shelf-life testing of foods. Food Technology, 39(9), 57-62.

Lee, H.-W., Choi, Y.-J., Hwang, I.M., Hong, S.W., & Lee, M.-A. (2016). Relationship between chemical

characteristics and bacterial community of a Korean salted-fermented anchovy sauce, Myeolchi-Aekjeot. LWT - Food Science and Technology, 73, 251-258.

Ndaw, A., Zinedine, A., Faid, M., & Bouseta, A. (2008). Effect of controlled lactic acid bacterial fermentation on

the microbiological and chemical qualities of Moroccan sardines (Sardina pilchardus). Acta Microbiol Immunol Hung, 55, 295–310.

Park, J.-N., Fukumoto, Y., Fujita, E., Tanaka, T., Washio, T., Otsuka, S., Shimizu, T., Watanabe, K., & Abe, H.

(2001). Chemical composition of fish sauces produced in southeast and east asian countries. Journal of Food Composition and Analysis, 14, 113-125.

Ruangying, J. Jorajit, S. & Janyam, K. (2016). Food consumption behavior of adolescents in Songkhla province:

synthesis of literacy and factors influencing food consumption behavior. Journal of Liberal Arts, Prince of Songkla University, 8 (1), 245-264. (in Thai).

Sukjuntra, J. , Yamirudeng, K., Muninnoppamas, W., and Intarachimas, W. (2009). The situation of Budu

production in Pattani province. Journal of Yala Rajabhat University. 4 (1), 11-21. (in Thai).

Thai industrial standards institute. (2004). Budu (TIST 325/2004). Department of Industry, Bangkok, Thailand.

Thai industrial standards institute. (2013). Budu Dressing for Khao-Yam (TIST 1019/2013). Department of

Industry, Bangkok, Thailand.

Thai industrial standards institute. (2004). Fish sauce (TIST 673/2014). Department of Industry, Bangkok,

Thailand.

Udomsil, N., Rodtong, S., Tanasupawat, S., & Yongsawatdigul, J. (2010). Proteinase-producing halophilic lactic

acid bacteria isolated from fish sauce fermentation and their ability to produce volatile compounds. International Journal of Food Microbiology, 141, 186-194.

Witono, Y., Siti Windrati, W., Taruna, I., Afriliana, A., & Assadam, A. (2014). Characteristics and sensory

analysis of ketchup and sauce products from “Bibisan” fish hydrolyzate. American Journal of Food Science and Technology, 2, 203-208.

Yun, J.-H., Cha, Y.-J., & Lee, D.-S. (2007). Storage stability and shelf Life characteristics of Korean savory

sauce products. Preventive Nutrition and Food Science, 12, 242-250.


Refbacks

  • There are currently no refbacks.