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2017 | 73 | 12 |

Tytuł artykułu

Wpływ okresu dojrzewania na właściwości fizykochemiczne mięśnia longissimus lumborum buhajków pięciu ras

Warianty tytułu

EN
Effect of ageing on the physicochemical properties of musculus longissimus lumborum of young bulls of five breeds

Języki publikacji

PL

Abstrakty

EN
Recent years have seen increasing interest in the conservation and use of native breeds of livestock raised in traditional farming systems. The experience of many European countries shows that promotion of raw materials and products derived from these breeds through a labelling system has a beneficial effect on the sustainable development of rural areas, contributes to preservation of the cultural heritage of the countryside, and increases the population of the breeds. As yet no beef produced in Poland has been included on the European list of traditional and regional products. For this reason we conducted a study to evaluate selected physicochemical properties of the meat of young bulls of three native breeds, Polish Red, White-Backed and Polish Black-and-White, compared with the meat of young Simmental and Polish Holstein-Friesian bulls, during a 14-day ageing of vacuum-packed meat. The following parameters were measured in m. longissimus lumborum (MLL) taken from half carcasses of 50 young bulls (10 from each breed): pH, electrical conductivity (45 min., 24 h, 2, 7 and 14 days post mortem), colour (according to CIE L*a*b*), shear force and energy. The water-holding capacity of the meat (drip loss, cooking loss and free water by the Grau-Hamm method), TBARS value (on days 2, 7 and 14) and content of haem pigments were determined as well. The physicochemical parameters of the MLL muscle obtained from the native Polish breeds of bulls (Polish Red, White-Backed and Polish Black-and-White) had intermediate values between those of Polish Holstein-Friesian (dairy type) and Simmental (dual-purpose) cattle. No qualitative deviations, such as those associated with DFD syndrome (pH 48 h in the range of 5.51-5.72), were found in any of the samples, which indicates that the raw material is well suited to the production of beef for culinary purposes. The breed of cattle was found to significantly influence the water-holding capacity parameters. The highest (P < 0.001) drip loss was reported on the 14th day post mortem for the MLL of young bulls of the Simmental (6.89%) and Polish Red breeds (6.47%). The highest cooking loss was found on the 7th day post mortem in the MLL of young bulls of the Polish Holstein-Friesian (30.66%) and Simmental breeds (30.92%). Significantly (P< 0.01) the least favourable water-holding capacity (the largest amount of free water) was shown by the muscle of young bulls of the Simmental breed on the 2nd day post mortem (75.31 mg) and the Polish Red breed on the 7th and 14th days post mortem (67.42 mg and 60.36 mg, respectively). On the 2nd and 7th days post mortem, the most tender MLL muscle was found (according to WBSF shear force) in the Polish Holstein-Friesian (76.8 N and 69.3 N) and Polish Black-and-White breeds (89.5 N and 59.1 N). On the last, 14th day of ageing, the instrumental WBSF shear force for the breeds evaluated was definitely more homogeneous and did not differ significantly (shear force in the range of 56.3-65.7 N; P > 0.05). Compared to the muscle of native breeds, that of the Polish Holstein-Friesians showed significantly lower haem pigments (on average 35 ppm less; P < 0.01) and a lower proportion of redness (a*) (P < 0.01) on the 2nd and 7th days post mortem. The MLL muscle of young bulls of the Polish Red breed had the lowest (P < 0.01) percentage content of yellowness (b*) during the whole ageing period. Significantly (P < 0.01) lower oxidative stability (higher TBARS value) was found in the meat from young bulls of the Polish Holstein-Friesian breed (on the 2nd and 7th days post mortem) and the White-Backed breed (on the 14th day) compared to all other breeds analysed. In general, the ageing time had a positive influence on the muscle quality, as the determinants of the visual and sensory attractiveness of the meat, which are also important in the meat industry, remained stable (pH), improved (colour and water-holding capacity G-H) or became more similar among the breeds (tenderness assessed on the basis of shear force, cooking loss).

Wydawca

-

Rocznik

Tom

73

Numer

12

Opis fizyczny

s.802-810,tab.,bibliogr.

Twórcy

  • Katedra Towaroznawstwa i Przetwórstwa Surowców Zwierzęcych, Wydział Biologii, Nauk o Zwierzętach i Biogospodarki, Uniwersytet Przyrodniczy w Lublinie, ul.Akademicka 13, 20-950 Lublin
  • Katedra Hodowli i Ochrony Zasobów Genetycznych Bydła, Wydział Biologii, Nauk o Zwierzętach i Biogospodarki, Uniwersytet Przyrodniczy w Lublinie, ul.Akademicka 13, 20-950 Lublin
autor
  • Katedra Towaroznawstwa i Przetwórstwa Surowców Zwierzęcych, Wydział Biologii, Nauk o Zwierzętach i Biogospodarki, Uniwersytet Przyrodniczy w Lublinie, ul.Akademicka 13, 20-950 Lublin
  • Katedra Hodowli i Ochrony Zasobów Genetycznych Bydła, Wydział Biologii, Nauk o Zwierzętach i Biogospodarki, Uniwersytet Przyrodniczy w Lublinie, ul.Akademicka 13, 20-950 Lublin

Bibliografia

  • Abril M., Campo M. M., Sañudo C., Alberti P., Negueruela A. I.: Beef colour evolution as a function of ultimate pH. Meat Sci. 2001, 58, 69-78.
  • Anderson M. J., Lonergan S. M., Fedler C. A., Prusa K. J., Binning J. M., Huff-Lonergan E.: Profile of biochemical traits influencing tenderness of muscles from the beef round. Meat Sci. 2012, 91, 247-254.
  • Beriain M. J., Goñi M. V., Indurain G., Sarriés M. V., Insausti K.: Predicting Longissimus dorsi myoglobin oxidation in aged beef based on early post-mortem colour measurements on the carcass as a colour stability index. Meat Sci. 2009, 81, 439-445.
  • Braghieri A., Cifuni G. F., Girolami A., Riviezzi A. M., Marsico I., Napolitano F.: Chemical, physical and sensory properties of meat from pure and crossbred Podolian bulls at different ageing times. Meat Sci. 2005, 69, 681-689.
  • Brewer S., Novakofski J.: Consumer sensory evaluations of aging effects on beef quality. J. Food Sci. 2008, 73, 78-82.
  • Byrne C. E., Troy D. J., Buckley D. J.: Postmortem changes in muscle electrical properties of bovine M. longissimus dorsi and their relationship to meat quality attributes and pH fall. Meat Sci. 2000, 54, 23-34.
  • Campo M. M., Sañudo C., Panea B., Albertí P., Santolaria P.: Breed type and ageing time effects on sensory characteristics of beef strip loin steaks. Meat Sci. 1999, 51, 383-390.
  • Christensen M., Ertbjerg P., Failla S., Sañudo C, Richardson R. I., Nute G. R., Olleta J. L., Panea B., Albertí P., Juárez M., Hocquette J. F., Williams J. L.: Relationship between collagen characteristics, lipid content and raw and cooked texture of meat from young bulls of fifteen European breeds. Meat Sci. 2011, 87, 61-65.
  • CIE: Colorimetry. (3rd ed.). Commission International de l’Eclairage. Vienna, Austria 2004, s. 16-20.
  • Daszkiewicz T., Wajda S., Kubiak D., Krasowska J.: Quality of meat from young bulls in relation to its ultimate pH value. Anim. Sci. Pap. Rep. 2009, 27, 293-302.
  • Destefanis G., Brugiapaglia A., Barge M. T., Dal Molin E.: Relationship between beef consumer tenderness perception and Warner-Bratzler shear force. Meat Sci. 2008, 78, 153-156.
  • Domaradzki P., Florek M., Staszowska A., Litwińczuk Z.: Evaluation of the Mineral Concentration in Beef from Polish Native Cattle. Biol. Trace Elem. Res. 2016, 169, 328-332.
  • Domaradzki P., Litwińczuk Z., Florek M., Litwińczuk A.: Zmiany właściwości fizykochemicznych i sensorycznych mięsa wołowego w zależności od warunków jego dojrzewania. Żywność. Nauka. Technologia. Jakość. 2016, 3, 35-53.
  • Domaradzki P., Skałecki P., Florek M., Litwińczuk A.: Wpływ przechowywania zamrażalniczego na właściwości fizykochemiczne mięsa wołowego pakowanego próżniowo. Żywność. Nauka. Technologia. Jakość. 2011, 4, 117-126.
  • Farouk M. M., Mustafa N. M., Wu G., Krsinic G.: The “sponge effect” hypothesis: An alternative explanation of the improvement in the waterholding capacity of meat with ageing. Meat Sci. 2012, 90, 670-677.
  • Florek M., Litwińczuk M., Skałecki P., Ryszkowska-Siwko M.: Changes of physicochemical properties of bullocks and heifers meat during 14 days of ageing under vacuum. Pol. J. Food Nutr. Sci. 2007, 3, 281-288.
  • Franco D., Bispo E., González L., Vázquez J. A., Moreno T.: Effect of finishing and aging time on quality attributes of loin from the meat of Holstein-Fresian cull cows. Meat Sci. 2009, 83, 484-491.
  • Gordon M. H.: Measuring antioxidant activity, [w:] Pokorny J., Yanishlieva N., Gordon M.: Antioxidants in food. Practical applications. Woodhead Publishing Limited, Abington Hall 2000, s. 78.
  • Grau R., Hamm R.: Eine einfache Methode zur Bestimmung der Wasserbindung im Muskel. Naturwissenschaft 1953, 40, 29.
  • Hiemstra S. J., de Haas Y., Mäki-Tanila A., Gandini G.: Local Cattle Breeds in Europe. Development of Policies and Strategies for Self-Sustaining Breeds. Wageningen Academic Publishers, Wageningen 2010.
  • Hocquette J.-F., Jacquet A., Giraud G., Legrand I., Sans P., Mainsant P., Verbeke W.: Quality of Food Products and Consumer Attitudes in France, [w:] Klopčič M., Kuipers A., Hocquette J.-F.: Consumer attitudes to food quality products. Emphasis on Southern Europe. EAAP publication No. 133. Wageningen Academic Publishers 2013, s. 67-82.
  • Honikel K. O.: Reference Methods for the Assessment of Physical Characteristics of Meat. Meat Sci. 1998, 49, 447-457.
  • Horcada-Ibáñez A., Polvillo-Polo O., Lafuente-García A., González-Redondo P., Molina-Alcalá A., Luque-Moya A.: Beef quality of native Pajuna breed calves in two production systems. Agrociencia 2016, 50, 167-182.
  • Hornsey H. C.: The colour of cooked cured pork I. Estimation of the nitric oxide-haem pigments. J. Sci. Food Agric. 1956, 7, 534-540.
  • Hughes J. M., Oiseth S. K., Purslow P. P., Warner R. D.: A structural approach to understanding the interactions between colour, water-holding capacity and tenderness. Meat Sci. 2014, 98, 520-532.
  • Igene J. O., Yamauchi K., Pearson A. M., Gray J. I., Aust S. D.: Evaluation of 2-thiobarbituric acid reactive substances (TBARS) in relation to warmed-over flavor (WOF) development in cooked chicken. J. Agric. Food Chem. 1985, 33, 364-367.
  • Insausti K., Beriain M. J., Purroy A., Alberti P., Gorraiz C., Alzueta M. J.: Shelf life of beef from local Spanish cattle breeds stored under modified atmosphere. Meat Sci. 2001, 57, 273-281.
  • Insausti K., Beriain M. J., Purroy A., Alberti P., Lizaso L., Hernandez B.: Colour stability of beef from different Spanish native cattle breeds stored under vacuum and modified atmosphere. Meat Sci. 1999, 53, 241-249.
  • Iwanowska A., Pospiech E., Łyczyński A., Rosochacki S., Grześ B., Mikołajczak B., Iwańska E., Rzosińska E., Czyżak-Runowska G.: Evaluation of variations in principal indices of the culinary meat quality obtained from young bulls of various breeds. Acta Sci. Pol., Technol. Aliment. 2010, 9, 133-149.
  • Li Ch., Li J., Li X., Hviid M., Lundström K.: Effect of low-voltage electrical stimulation after dressing on color stability and water holding capacity of bovine longissimus muscle. Meat Sci. 2011, 88, 559-565.
  • Litwińczuk Z.: Ochrona zasobów genetycznych zwierząt gospodarskich i dziko żyjących. PWRiL, Warszawa 2011.
  • Litwińczuk Z., Domaradzki P., Florek M., Żółkiewski P.: Chemical composition, fatty acid profile, including health indices of intramuscular fat, and technological suitability of the meat of young bulls of three breeds included in a genetic resources conservation programme, fattened in a low-input system. Anim. Sci. Pap. Rep. 2016, 34, 387-397.
  • Litwińczuk Z., Domaradzki P., Grodzicki T., Litwińczuk A., Florek M.: The relationship of fatty acid composition and cholesterol content with intramuscular fat content and marbling in the meat of Polish Holstein-Friesian cattle from semi-intensive farming. Anim. Sci. Pap. Rep. 2015, 33, 119-128.
  • Litwińczuk Z., Florek M., Domaradzki P., Żółkiewski P.: Właściwości fizykochemiczne mięsa buhajków trzech rodzimych ras – polskiej czerwonej, białogrzbietej i polskiej czarno-białej oraz simentalskiej i polskiej holsztyńsko-fryzyjskiej. Żywność. Nauka. Technologia. Jakość 2014, 5, 53-62.
  • Litwińczuk Z., Żółkiewski P., Florek M., Chabuz W., Domaradzki P.: Semiintensive fattening suitability and slaughter value of young bulls of 3 Polish native breeds in comparison with Polish Holstein-Friesian and Simmental. Ann. Anim. Sci. 2014, 2, 453-460.
  • Lyford C., Thompson J., Polkinghorne R., Miller M., Nishimura T., Neath K., Allen P., Belasco E.: Is willingness to pay (WTP) for beef quality grades affected by consumer demographics and meat consumption preferences? Australas. Agribus. Rev. 2010, 18, 1-17.
  • Mach N., Bach A., Velarde A., Devant M.: Association between animal, transportation, slaughterhouse practices, and meat ph in beef. Meat Sci. 2008, 78, 232-238.
  • Marino R., Albenzio M., Caroprese M., Napolitano F., Santillo A., Braghieri A.: Effect of grazing and dietary protein on eating quality of Podolian beef. J. Anim. Sci. 2011, 89, 3752-3758.
  • Martyniuk E.: Ochrona zasobów genetycznych zwierząt gospodarskich. MRiRW, Warszawa 2010.
  • McAfee A. J., McSorley E. M., Cuskelly G. J., Moss B. W., Wallace J. M. W., Bonham M. P., Fearon A. M.: Red meat consumption: An overview of the risks and benefits. Meat Sci. 2010, 84, 1-13.
  • McKenna D. R., Mies P. D., Baird B. E., Pfeiffer K. D., Ellebracht J. W., Savell J. W.: Biochemical and physical factors affecting discoloration characteristics of 19 bovine muscles. Meat Sci. 2005, 70, 665-682.
  • Miller M. F., Carr M. A., Ramsey C. B., Crockett K. L., Hoover L. C.: Consumer thresholds for establishing the value of beef tenderness. J. Anim. Sci. 2001, 79, 3062-3068.
  • Modzelewska-Kapituła M., Kwiatkowska A., Jankowska B., Dąbrowska E.: Water holding capacity and collagen profile of bovine m. infraspinatus during postmortem ageing Meat Sci. 2015, 100, 209-216.
  • Monsón F., Sañudo C., Sierra I.: Influence of cattle breed and ageing time on textural meat quality. Meat Sci. 2004, 68, 595-602.
  • Muchenje V., Dzama K., Chimonyo M., Strydom P. E., Raats J. G.: Relationship between pre-slaughter stress responsiveness and beef quality in three cattle breeds. Meat Sci. 2009, 81, 653-657.
  • O’Dowd L. P., Arimi J. M., Noci F., Cronin D. A., Lyng J. G.: An assessment of the effect of pulsed electrical fields on tenderness and selected quality attributes of post rigour beef muscle. Meat Sci. 2013, 93, 303-309.
  • ÓKeefe M., Hood D. E.: Biochemical factors influencing metmyoglobin formation on beef from muscles of differing colour stability. Meat Sci. 1982, 7, 209-228.
  • Oliete B., Carballo J. A., Varela A., Moreno T., Monserrat L., Sanchez L.: Effect of weaning status and storage time under vacuum upon physical characteristics of meat of the Rubia Gallega breed. Meat Sci. 2006, 73, 102-108.
  • Oliete B., Moreno T., Carballo J. A., Varela A., Monserrat L., Sánchez L.: Influence of ageing time on the quality of yearling calf meat under vacuum. Eur. Food Res. Technol. 2005, 220, 489-493.
  • Revilla I., Vivar-Quintana A. M.: Effect of breed and ageing time on meat quality and sensory attributes of veal calves of the “Ternera de Aliste” Quality Label. Meat Sci. 2006, 73, 189-196.
  • Ripoll G., Albertí P., Casasús I., Blanco M.: Instrumental meat quality of veal calves reared under three management systems and color evolution of meat stored in three packaging systems. Meat Sci. 2013, 93, 336-343.
  • Rodas-González A., Huerta-Leidenz N., Jerez-Timaure N., Miller M. F.: Establishing tenderness thresholds of Venezuelan beef steaks using consumer and trained sensory panels. Meat Sci. 2009, 83, 218-223.
  • Roldan M., Antequera T., Armenteros M., Ruiz J.: Effect of different temperature – time combinations on lipid and protein oxidation of sous-vide cooked lamb loins. Food Chem. 2014, 149, 129-136.
  • Scollan N. D., Dannenberger D., Nuernberg K., Richardson I., MacKintosh S., Hocquette. J.-F., Moloney A. P.: Enhancing the nutritional and health value of beef lipids and their relationship with meat quality. Meat Sci. 2014, 97, 384-394.
  • Sekar A., Dushyanthan K., Radhakrishnan K. T., Narendra Babu R.: Effect of modified atmosphere packaging on structural and physical changes in buffalo meat. Meat Sci. 2006, 72, 211-215.
  • Sepúlveda W., Maza M. T., Mantecón A. R.: Factors that affect and motivate the purchase of quality-labelled beef in Spain. Meat Sci. 2008, 80, 1282-1289.
  • Serra X., Guerrero L, Guàrdia M. D., Gil M., Sañudo C., Panea B., Campo M. M., Olleta J. L, García-Cachán M. D., Piedrafita J., Oliver. M. A.: Eating quality of young bulls from three Spanish beef breed-production systems and its relationships with chemical and instrumental meat quality. Meat Sci. 2008, 79, 98-104.
  • Shackleford S. D., Morgan J. B., Cross H. R., Savell J. W.: Identification of threshold levels for Warner-Bratzler shear force in beef top loin steaks. J. Muscle Foods 1991, 2, 289-294.
  • Shanks B. C., Wulf D. M., Maddock R. J.: Technical note: The effect of freezing on Warner-Bratzler shear force values of beef longissimus steaks across several postmortem aging periods. J. Anim. Sci. 2002, 80, 2122-2125.
  • Sierra V., Guerrero L., Fernández-Suárez V., Martínez A., Castro P., Osoro K., Rodríguez-Colunga M. J., Coto-Montes A., Oliván M.: Eating quality of beef from biotypes included in the PGI “Ternera Asturiana” showing distinct physicochemical characteristics and tenderization pattern. Meat Sci. 2010, 86, 343-351.
  • Toohey E. S., van de Ven R., Thompson J. M., Geesink G. H., Hopkins D. L.: SmartStretch™ Technology V. The impact of SmartStretch™ technology on beef topsides (m. semimembranosus) meat quality traits under commercial processing conditions. Meat Sci. 2012, 92, 24-29.
  • Vieira C., Diaz M. T., Martínez B., García-Cachán M. D.: Effect of frozen storage conditions (temperature and length of storage) on microbiological and sensory quality of rustic crossbred beef at different states of ageing. Meat Sci. 2009, 83, 398-404.
  • Vieira C., García-Cachán M. D., Recio M. D., Domínguez M., Sañudo C.: Effect of ageing time on beef quality of rustic type and rustic × Charolais crossbreed cattle slaughtered at the same finishing grade. Span. J. Agric. Res. 2006, 4, 225-234.35
  • Warner R. D., Greenwood P. L., Pethick D. W., Ferguson D. M.: Genetic and environmental effects on meat quality. Review. Meat Sci. 2010, 86, 171-183.
  • Witte V. C., Krause G. F., Bailey M. E.: A New extraction method for determining 2-thiobarbituric acid values of pork and beef during storage. J. Food Sci. 1970, 35, 582-585.
  • Wyrwisz J., Moczkowska M., Kurek M., Stelmasiak A., Półtorak A., Wierzbicka A.: Influence of 21 days of vacuum-aging on color, bloom development, and WBSF of beef semimembranosus. Meat Sci. 2016, 122, 48-54.

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Bibliografia

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