Hanwoo cattle are an important food source in Korea and their supply can have a major impact on meat availability for Korean consumers. The Hanwoo population was 1.8 million head in 2005 and gradually increased to 2.6 million in 2015. Per capita beef consumption has also increased, to 11.6 kg per year in 2015, and is expected to continue to increase. Because intramuscular fat percentage is a critical contributor to meat quality, Hanwoo cattle are fed a high-energy corn-based diet for long fattening periods. Long fed diet causes significant alterations in fat percentage in the loin muscle and other areas of the carcass. However, these long feeding periods increase feeding costs and beef prices. Recently, there has been increased Korean consumer demand for lean beef which has less fat, but is tender and priced more reasonably. These consumer demands on the Korean beef industry are driving differing beef production systems and also changes to the beef grading methodology. Korean government has made a significant investment to select bulls with favorable production traits using progeny testing. Progeny tested bull semen has been disseminated to all Hanwoo farmers. A beef traceability system has been employed for all cattle breeds in Korea since 2009. Hanwoo cattle are ear-marked with a 12-digit identification number from birth to slaughter. This number allows traceability of the management history of individual cattle, and also provides information to consumers. Traceability including management information such as herd, farm, year of birth, and carcass data can determine estimated breeding values of Hanwoo. For a sustainable Hanwoo industry, research scientists in Korea have attempted to develop feeds for efficient fattening periods and precision feeding systems based on genetic information for Hanwoo cattle. These initiatives aim to Korean consumer demands for beef and provide more precision management in beef production in Korea.
One‐hundred‐twenty crossbred pigs finished at 175–185 days of age were used to investigate the effects of live weights at slaughter on the meat quality, volatile flavor compounds, and sensory attributes of pork meat. Based on the live weights at slaughter, three weight groups (n = 36 per group) were classified as follows: light weight (LW: 100 kg), medium weight (MW: 110 kg), and heavy weight (HW: 120 kg). After slaughter, longissimus dorsi muscle samples were taken and used for the analyses of aforementioned parameters. The HW group had higher fat content and water holding capacity compared to the LW or MW group (p < 0.05). The HW group also showed higher levels for majority of unsaturated fatty acids and total polyunsaturated fatty acids than the LW group (p < 0.05). The slaughter weight significantly affected the amounts of 11 among the 47 flavor compounds identified. Significantly higher amounts of fatty acids oxidation‐derived flavor compounds (aldehydes) were found in the HW group than in the other groups. Noticeably, increasing slaughter weight was associated with higher sensorial scores for flavor, juiciness, and acceptance scores (p < 0.05). Based on the obtained results, 120 kg body weight is recommended as the market weight for this commercial breed without compromising the meat quality.
The present study was conducted to investigate the effects of cut type and ageing period on the technological quality, colour, texture and sensory characteristics of horse meat. Nine different cuts: loin, shoulder chuck roll, shank, outside round, tenderloin, shoulder clod, brisket, top round and striploin from 28-month-old female horses were used in the present investigation. The cuts were randomly assigned into 2, 10, 20 and 30 days’ ageing groups and ageing was carried out in a chilling room (2 ± 2°C). The results showed that there were significant (P < 0.05) differences among the cuts for the drip loss, pH and cooking loss at all ageing days; particularly, striploin had the lowest pH and highest drip loss whereas shoulder chuck roll had the highest pH value. Ageing significantly (P < 0.05) increased in pH and drip loss in most cuts with the highest drip loss ~5.17% in striploin and the highest cooking loss ~9.27% in shoulder chuck roll after 30 days of ageing. At Day 2 of ageing, no differences in Warner–Bratzler shear force values occurred between the cuts (P > 0.05). Ageing only decreased Warner–Bratzler shear force in the loin and outside round (P < 0.05). Colour parameters also revealed differences between cuts and ageing periods, particularly the L* (lightness) values ranged between the cuts from 34.38 to 37.14, 34.0 to 37.24, 33.24 to 37.07, and 34.7 to 38.92 at Days 2, 10, 20 and 30 of ageing, respectively; similarly the a* (redness) values ranged between the cuts from 16.76 to 17.81, 16.61 to 17.85, 17.46 to 19.46, and 17.72 to 20.47 at Days 2, 10, 20 and 30 of ageing, respectively. For the compression, the lowest hardness values (4.41–5.73 kg) were found in tenderloin at all ageing days. Furthermore, the scores for tenderness, flavour, juiciness and acceptability were different (P < 0.05) among the cuts at all ageing days. Ageing improved flavour of loin, shank and striploin, and juiciness of tenderloin and striploin whereas it decreased the juiciness and acceptability scores of some cuts (e.g. shoulder chuck roll). Thus, the present data provide not only useful information for horse meat producers but also important databases for further investigations.
Objective: Pork belly is considered as the most commercially important and preferable primal cut by consumers worldwide. Thus, this study was conducted to determine the effects of fat levels on the meat quality characteristics of pork bellies.Methods: Seventy-eight growing-finishing pigs collected from different commercial pig farms were slaughtered and used in the present study. After slaughter 24 h, bellies were fabricated according to the Korean Pork Cutting Specification, and immediately sampled for analysis of their fat content. Based on the fat levels, the bellies were segregated into three different groups: low fat (LF, fat ≤20%, n = 15), medium fat (MF, fat 21% to 30%, n = 30), and high fat (HF, fat ≥31%, n = 33). The bellies were then analyzed for meat quality traits, fatty acids, flavor compounds and eating quality properties.Results: The HF group had lower moisture and cooking loss levels compared to the other groups (p<0.05). The LF group presented higher proportions of polyunsaturated fatty acids compared to the other groups (p<0.05). The LF group showed higher amounts of the Maillard reaction-derived flavor compounds (e.g., 2,5-dimethyl pyrazine, 2-ethyl-3,5-dimethyl, and 4-methylthiazole) associated with meaty and roasty flavors whereas, the HF group showed higher amounts of oleic acid- derived compounds (e.g., nonanal and octanal) associated with the fatty and oily flavors. Interestingly, significantly higher scores for all the eating quality attributes (flavor, juiciness, tenderness, and overall acceptance) were found in the HF group compared to those in the LF or MF group (p<0.05).Conclusion: The high-fat bellies (fat ≥31%) had a better technological quality and eating quality compared to the low-fat bellies (fat ≤20%). Thus, increasing the fat content may improve the technological quality and eating quality traits of pork bellies, however, this increase may also result in more trimmed loss due to excessively deposited body fat.
The present study aimed at investigating the effects of dry- and wet-aging methods on flavor compounds and sensory properties of low fat Hanwoo beef muscles. All the beef samples were obtained from 2-grade carcasses of Hanwoo cows. The beef samples used in the dry- and wet-aging methods were prepared in the forms of quarter beef (bone-in) and cuts (boneless), respectively. The dry-aging was carried out at 2°C–4°C and humidity of 65%–85%, while the wet-aging was done at 1°C for 0, 20, 40, and 60 d. At each aging time, three muscles: longissmus thoracis (LT), glutaeusmedus (GM) and semimembranosus (SM) were taken from the corresponding quarters and cuts, and used for the flavor compounds and sensory analyses. Results showed that both aging methods significantly increased the concentrations of flavor compounds and total amount of all classes of the flavor compounds as the aging time increased (p<0.05). In the dry-aging method, the GM and SM muscles presented significantly higher total amounts of pyrazines and sulfur-containing compounds compared to the LT muscle (p<0.05). Both the aging methods improved the eating quality attributes, indicating by increased scores of sensorial attributes with increased aging time for all the muscles studied (p<0.05). However, compared to the wet-aging, the dry-aging method resulted in significantly higher scores of tenderness and flavor for the GM and SM muscles after 40 to 60 d. Thus, postmortem aging, especially the dry-aging method could be used to improve eating quality attributes (tenderness and flavor) of low fat beef muscles such as GM and SM.
Based on the obtained results, it is concluded that the two meat types studied are rich in nutrients and the animal species strongly affected.
The objectives of this study were to isolate the lactic acid bacteria (LAB) exhibiting β‐glucosidase activity from Airag, and investigate the hydrolytic activity of the enzyme on saponin (Korean ginsenoside). Of the 33 types of LAB with positive reactions (β‐glucosidase) in the Esculin Iron Agar test, one LAB (CRNB‐A3) was found to have high hydrolytic activity for ginsenoside Rb1. 16S rDNA analysis revealed that CRNB‐A3 was Enterococcus faecalis (99.9% homology). The optimum temperature and pH for growth of CRNB‐A3 in MRS broth were 35C and 8.0, respectively. Crude enzyme from E. faecalis CRNB‐A3 showed ability to convert ginsenoside Rb1 into minor ginsenosides Rg3 and Rg5. The use of an API ZYM kit showed that E. faecalis CRNB‐A3 had higher activities of leucine arylamidase, esterase and β‐glucosidase than any other enzyme activities. Additionally, E. faecalis CRNB‐A3 was identified as being hetero‐fermentative. Practical Applications The fermentation of Panax ginseng yields many compounds from ginsenoside that have varying biological functions. These compounds are widely consumed in Korea and other Asian nations in the form of extracts, alcohols, candy, fermented liquids and pharmacological products. This study revealed that an Airag (Mongolian KOUMISS) LAB strain possessed a strong ability to convert ginsenoside Rb1 to Rg3 and Rg5, which could be used in food and cosmetic industries for making yogurts, beverage products, cosmetics and other products for ginsenoside supplementations.
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