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http://dx.doi.org/10.5851/kosfa.2020.e45

Effect of Dry-Aged Beef Crust Levels on Quality Properties of Brown Sauce  

Park, Sin-Young (Department of Animal Resources Science, Kongju National University)
Seol, Kuk-Hwan (National Institute of Animal Science, Rural Development Administration)
Kim, Hack-Youn (Department of Animal Resources Science, Kongju National University)
Publication Information
Food Science of Animal Resources / v.40, no.5, 2020 , pp. 699-709 More about this Journal
Abstract
This study utilized the crust by-product from dry-aged beef as a flavor enhancer for brown sauce and analyzed its physicochemical and organoleptic properties. The physiochemical properties include proximate composition, color, pH, swelling yield, viscosity, and salinity. The organoleptic properties were studied through electronic nose and sensory evaluations. The moisture content of the samples decreased while fat and protein content increased as crust content increased (p<0.05). The lightness, yellowness, and redness increased with increasing crust content (p<0.05). The pH of the samples also increased as the crust content increased. The viscosity significantly increased while salinity decreased with increasing crust content (p<0.05). The aromatic profiles of the control and samples with 5% and 10% crust addition were distinguishable; however, samples with crust additives between 10% and 15% gave similar aromatic profiles. The taste of the control sample was significantly lower than that of the samples formulated with the crust (p<0.05), and the sensory viscosity of the samples with 10% crust was significantly higher than that of the control (p<0.05). Flavor and overall acceptability tended to increase with increasing crust content of up to 10% addition (p<0.05). These results show that the crust from dry-aged beef loin crust is a suitable natural flavor enhancer for brown sauce and improves its physiochemical and organoleptic properties.
Keywords
beef; brown sauce; crust; dry aging; food processing;
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Times Cited By KSCI : 5  (Citation Analysis)
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1 Methven L. 2012. Natural food and beverage flavour enhancers. In Natural food additives, ingredients and flavourings. 1st ed. Baines D, Seal R (ed). Woodhead, Cambridge, UK. pp 76-99.
2 Oh J. 2018. Establishment of aging indicator for dry-aged beef. M.S. thesis, Seoul National Univ., Seoul, Korea.
3 Park B, Yong HI, Choe J, Jo C. 2018. Utilization of the crust from dry-aged beef to enhance flavor of beef patties. Korean J Food Sci Anim Resour 38:1019-1028.   DOI
4 Ryu S, Park MR, Maburutse BE, Lee WJ, Park DJ, Cho S, Hwang I, Oh S, Kim Y. 2018. Diversity and characteristics of the meat microbiological community on dry aged beef. J Microbiol Biotechnol 28:105-108.   DOI
5 Sikora M, Badrie N, Deisingh AK, Kowalski S. 2008. Sauces and dressings: A review of properties and applications. Crit Rev Food Sci Nutr 48:50-77.   DOI
6 Spanier AM, Flores M, McMillin KW, Bidner TD. 1997. The effect of post-mortem aging on meat flavor quality in Brangus beef. Correlation of treatments, sensory, instrumental and chemical descriptors. Food Chem 59:531-538.   DOI
7 Statista. 2019. Sauces & spices. Food report 2019. Available from: https://www.statista.com/outlook/40070000/100/saucescondiments/worldwide. Accessed at Feb 10, 2020.
8 Stenstrom H, Li X, Hunt MC, Lundstrom K. 2014. Consumer preference and effect of correct or misleading information after ageing beef longissimus muscle using vacuum, dry ageing, or a dry ageing bag. Meat Sci 96:661-666.   DOI
9 Tsikritzi R, Wang J, Collins VJ, Allen VJ, Mavrommatis Y, Moynihan PJ, Gosney MA, Kennedy OB, Methven L. 2015. The effect of nutrient fortification of sauces on product stability, sensory properties, and subsequent liking by older adults. J Food Sci 80:S1100-S1110.   DOI
10 Varavinit S, Snobsngob S, Bhidyachakorawat M, Suphantharika M. 2000. Production of meat-like flavor. Sci Asia 26:219-224.   DOI
11 William S, Akiko A. 2012. History of worcestershire sauce (1837-2012). Soyinfo Center, Lafayette, CA, USA. pp 34-114.
12 Xiao Z, Yu D, Niu Y, Chen F, Song S, Zhu J, Zhu G. 2014. Characterization of aroma compounds of Chinese famous liquors by gas chromatography-mass spectrometry and flash GC electronic-nose. J Chromatogr B 945-946:92-100.   DOI
13 Yapar A, Atay S, Kayacier A, Yetim H. 2006. Effects of different levels of salt and phosphate on some emulsion attributes of the common carp (Cyprinus carpio L., 1758). Food Hydrocoll 20:825-830.   DOI
14 Young OA, West J. 2001. Meat color. In Meat science and applications. Hui YH, Nip WK, Rogers RW, Young OA (ed). Marcel Dekker, New York, NY, USA. pp 39-70.
15 Zeng W, Zhang HZ, Lee TC. 1996. Direct determination of the starch content in gravy by near-infrared spectroscopy. J Agric Food Chem 44:1460-1463.   DOI
16 Dashdorj D, Tripathi VK, Cho S, Kim Y, Hwang I. 2016. Dry aging of beef: Review. J Anim Sci Technol 58:20.   DOI
17 Aaslyng MD, Meinert L. 2017. Meat flavour in pork and beef: From animal to meal. Meat Sci 132:112-117.   DOI
18 Abdullah N, Wahab N, Saruan N, Matias-Peralta HM, Xavier NR, Muhammad N, Talip BA, Bakar MFA. 2018. Effect of replacing coconut milk with almond milk in spicy coconut gravy on its sensorial, nutritional and physical properties. Mater Today 5:21919-21925.
19 AOAC. 1990. Official methods of analysis. 15th ed. Association of Official Analytical Chemists, Washington, DC, USA. pp 1-788.
20 Boleman SJ, Boleman SL, Miller RK, Taylor JF, Cross HR, Wheeler TL, Koohmaraie M, Shackelford SD, Miller MF, West RL, John DD, Savell JW. 1997. Consumer evaluation of beef known categories of tenderness. J Anim Sci 75:1521-1524.   DOI
21 Desmond E. 2006. Reducing salt: A challenge for the meat industry. Meat Sci 74:188-196.   DOI
22 Eshtiaghi MN, Stute R, Knorr D. 1994. High-pressure and freezing pretreatment effects on drying, rehydration, texture and color of green beans, carrots and potatoes. J Food Sci 59:1168-1170.   DOI
23 Iida F, Miyazaki Y, Tsuyuki R, Kato K, Egusa A, Ogoshi H, Nishimura T. 2016. Changes in taste compounds, breaking properties, and sensory attributes during dry aging of beef from Japanese black cattle. Meat Sci 112:46-51.   DOI
24 Juneja VK, Marmer BS, Eblen BS. 1999. Predictive model for the combined effect of temperature, pH, sodium chloride, and sodium pyrophosphate on the heat resistance of Escherichia coli O157:H7. J Food Saf 19:147-160.   DOI
25 Lee JA, Shin YJ, Park GS. 2007. Quality characteristics of brown sauce with added apricot during storage. Korean J Food Cook Sci 23:877-883.
26 Juszczak L, Witczak M, Fortuna T, Banys A. 2004. Rheological properties of commercial mustards. J Food Eng 63:209-217.   DOI
27 Kadam BR, Ambadkar RK, Rathod KS, Landge S. 2018. Health benefits of whey: A brief review. Int J Livest Res 8:31-49.   DOI
28 Kim DS, Choi SK, Lee JP, Choi SH. 2009. Physiological and sensory characteristics of demi-glace sauce with roux. Korean J Culin Res 15:150-160.
29 Laster MA, Smith RD, Nicholson KL, Nicholson JDW, Miller RK, Griffin DB, Harris KB, Savell JW. 2008. Dry versus wet aging of beef: Retail cutting yields and consumer sensory attribute evaluations of steaks from ribeyes, strip loins, and top sirloins from two quality grade groups. Meat Sci 80:795-804.   DOI
30 Lee HJ, Yoon JW, Kim M, Oh H, Yoon Y, Jo C. 2019. Changes in microbial composition on the crust by different air flow velocities and their effect on sensory properties of dry-aged beef. Meat Sci 153:152-158.   DOI
31 Mcgee H. 2004. On food and cooking: The science and lore of the kitchen. Unwin Hyman, London, UK. pp 580-581.