Meat quality and fatty acid profile of the musculus longissimus lumborum in Czech Fleckvieh, Charolais and Charolais &amp;times; Czech Fleckvieh bulls fed different types of silages

Bartoň, L.; Bureš, Daniel; Kudrna, V.

doi:10.17221/1711-cjas

Cited by 17 publications

(19 citation statements)

References 35 publications

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“…The FAME were quantified using C19:0 as the internal standard and were expressed as the percentage of the total lipids that were identified. The ∆9 desaturase, elongase and atherogenic indices were calculated according to Bartoň et al (2010), Pitchford et al (2002) and Ulbricht & Southgate (1991), respectively, as follows: where C14:1n-9c, C16:1n-9c, C18:1n-9c, CLA, C14:0, C16:0, C18:0, C18:1t, C12:0, SFA and PUFA are myristoleic acid, palmitoleic acid, oleic acid, sum of CLA isomers, myristic acid, palmitic acid, stearic acid, trans-C18:1 acids, lauric acid, saturated fatty acids and polyunsaturated fatty acids, respectively.…”

Section: Methodsmentioning

confidence: 99%

Fatty acid profile of zebu beef cattle from the Central African sub-region

Nfor¹,

Corazzin²,

Fonteh³

et al. 2014

SA J. An. Sci.

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This study analysed the meat fatty acid (FA) composition of three zebu breeds, Gudali (GU), White Fulani (WF) and Red Mbororo (RM), raised on savannah pasture and monitored in the commercial context of the Yaoundé abattoir. Samples of m. longissimus thoracis from 60 bulls belonging to the GU, WF and RM breeds were collected and analysed for fat and FA composition. The fat content of the meat was low, but similar across breeds (1.34 ± 0.912 g/100 g muscle, mean ± SD). Meat from the GU breed had higher C18:3n-3 and C22:5n-3 proportions and lower C18:0 and total saturated FA proportions than WF meat. Red Mbororo meat had an intermediate FA composition compared with the other breeds. The elongase and ∆9 desaturase indices were comparable among breeds. In summary, the results indicate that there are minimal differences in beef FA composition of the three breeds from the Central African sub-region. Additionally, based on the polyunsaturated FA (PUFA) proportion, 13.9% of the total lipids and n-6/n-3 PUFA ratio, 1.95, consumption of beef from these breeds could be beneficial to human health. This is possibly owing to the pasture feeding and low fat content of the beef.

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Section: Methodsmentioning

confidence: 99%

Fatty acid profile of zebu beef cattle from the Central African sub-region

Nfor¹,

Corazzin²,

Fonteh³

et al. 2014

SA J. An. Sci.

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“…Statistical comparisons are therefore not shown. SFA = C14:0 + C16:0 +C18:0 MUFA = C14:1n-5 + C16:1n-7, + C18:1n-9 + C18:1n-7 +C18:1n-11t PUFA = C18:2n-6 + C20:3n-6 + C20:4n-6 + C22:4n-6 +C18:3n-3 + C20:5n-3 + C22:6n-3 (source: Barton et al 2010) a,b Means in the same row with different superscripts are signifi cantly different. Fatty acid data presented were re-calculated to represent amount per 100 g EP.…”

Section: Resultsmentioning

confidence: 99%

“…Differences also exist across local breeds, commercial breeds, and their crosses (Barton et al, 2010; Table 4). Beef from Czech Fleckvieh, a local breed, contained more protein and tended to have a greater fat content than beef from the Charolais fed a the same diet.…”

Section: Demonstration Of Biodiversitymentioning

confidence: 99%

Importance of cattle biodiversity and its influence on the nutrient composition of beef

et al. 2012

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Abstract• Livestock make a substantial contribution to achieving food and nutrition security due to various factors including the high nutritional quality of animal-source foods.• Conservation and sustainable use of cattle genetic resources are important due to the multiple benefits provided by local breeds. These benefits include multiple direct uses, additional market value provided by specialty products, social and cultural roles, and adaptations that local breeds have to climate and diseases in harsh environments.• Meat composition varies across cattle breeds. Whereas genetics play a role in this variation, management practices, such as diet, and other environmental factors also affect nutrient composition.• Compositional data for cattle breeds have been added to the FAO/INFOODS Food Composition Database for Biodiversity. The database is publicly available and has value for use by researchers, nutritionists, producers, the general public and other stakeholders.• More compositional data, including amino acids, minerals, and vitamins, are needed from local breeds in order to understand better the nutritional benefits of sustainably managing animal genetic resources.

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“…A well-known Swamp buffalo breed contains average live weight yields 592 kg, 277 kg carcass and 215 kg meat [1]. Meat consumption varies worldwide, depending on cultural or religious preferences, as well as economic conditions.…”

Section: Introductionmentioning

confidence: 99%

“…Breed differences in production traits are important genetic resources for improving beef production efficiency, meat composition and quality. The carcass traits are mainly affected by breed, gender, age and nutrition of animal [1]. Pakistan has 33.7 million buffalo heads with approximately 18.01 percent of total world population, it includes Kundhi and Nili Ravi breeds.…”

Section: Introductionmentioning

confidence: 99%

Effect of breed on carcass traits of Kundhi and Nili Ravi buffalo

Zardari¹

2017

PAB

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Present study was conducted to study the carcass traits of Kundhi and Nili Ravi buffalo. The total 100 animals of Kundhi and Nili Ravi breed were randomly selected and divided into A, B, C and D group. In group A and C there were Kundhi and Nili Ravi male whereas, B and D females of both breeds respectively and the age of animals was around 36 months. The selected animals were slaughtered at slaughter house of Seven Star meat processing company Dhabeji, Thatta. The carcass traits studied including live body weight, carcass weight, dressing percentage and boneless weight. The results revealed that carcass traits live body weight, carcass weight, dressing percentage and boneless weight of Nili Ravi male was significantly higher (P>0.05) as compared to the Kundhi buffalo male, while same carcass traits were also observed highly significant (P>0.01) in Nili Ravi female than Kundhi buffalo female. It was concluded that carcass traits of Nili Ravi buffalo are better expressed and produces more beef than Kundhi buffalo. Likewise Kundhi buffalo male is better in beef production than the Nili Ravi female and Kundhi buffalo female produces low carcass yield.

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Meat quality and fatty acid profile of the musculus longissimus lumborum in Czech Fleckvieh, Charolais and Charolais × Czech Fleckvieh bulls fed different types of silages

Cited by 17 publications

References 35 publications

Fatty acid profile of zebu beef cattle from the Central African sub-region

Fatty acid profile of zebu beef cattle from the Central African sub-region

Importance of cattle biodiversity and its influence on the nutrient composition of beef

Effect of breed on carcass traits of Kundhi and Nili Ravi buffalo

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