PL EN
QUALITY OF TRADITIONAL DRY-CURED LOIN FROM RUSTIC AND COMMERCIAL PIG BREEDS
 
Więcej
Ukryj
1
WULS-SGGW, Faculty of Human Nutrition and Consumer Sciences
 
2
WULS-SGGW Faculty of Food Sciences
 
 
Data publikacji: 06-07-2021
 
 
2019;(596):55-66
 
SŁOWA KLUCZOWE
STRESZCZENIE
The aim of this study was to determine the relationship between chemical composition of traditional dry-cured loin produced in Poland and their objective sensory characteristic and to establish which pig breed is more suitable for the production of high quality dry-cured loin. Material varied depending on marbling, juiciness, tenderness, pH, colour parameters L* and a*, water, protein and calcium content. Dry-cured loins obtained from the meat of Zlotnicka White pigs had higher overall quality, were more juicy and tender with lower protein, salt and zinc content comparing to loins obtained from meat of commercial crossbreed pigs and is more suitable to produce high quality dry-cured loins.
REFERENCJE (26)
1.
Association of Official Analytical Chemists (AOAC), 2000. Official Methods of Analysis, 17th ed., Association of Official Analytical Chemists, Gaithersburg, MD.
 
2.
Bañón S., Bedia M., Almela E., Martínez P.J., 2010. Improving the quality of dry-cured sausages using pork from rustic breed. Agri. Food Sci. 19, 240–251.
 
3.
Çakýcý N., Aksu M.I., Erdemir E., 2015. A survey of the physico-chemical and microbiological quality of different pastime types: a dry-cured meat product. CyTA J. Food 13(2), 196–203.
 
4.
Cannata S., Engle T., Moeller S., Zerby H., Bass P., Belk K., 2009. Intramuscular fat and sensory properties of pork loin. Ital. J. Anim. Sci. 8(2), 483–485.
 
5.
Carrapiso A.I., García C., 2008. Effect of the Iberian pig line on dry-cured ham characteristics. Meat Sci. 80, 529–534.
 
6.
Cava R., Estévez M., Morcuende D., Antequera T., 2003. Evolution of fatty acids from intramuscular lipid fractions during ripening of Iberian hams as affected by α-tocopheryl acetate supplementation in diet. Meat Sci. 81, 199–207.
 
7.
Fernández M., Ordóñez J.A., Cambero I., Santos C., Pin C., De la Hoz L., 2007. Fatty acid compositions of selected varieties of Spanish dry ham related to their nutritional implications. Food Chem. 101, 107–112.
 
8.
Fortin A., Robertson W.M., Tong A.K.W., 2005. The eating quality of Canadian pork and its relationship with intramuscular fat. Meat Sci. 69, 297–305.
 
9.
Górska E., Nowicka K., Jaworska D., Przybylski W., Tambor K., 2017. Relationship between sensory attributes and volatile compounds of polish dry-cured loin. AJAS 30(5), 720–727.
 
10.
Grześkowiak E., Borzuta K., Strzelecki J., Buczyński J.T., Lisiak D., Janiszewski P., 2007. Results of the study on carcass quality and technological suitability of meat obtained from Zlotnicka pigs. Rocz. Nauk. Zoo. 34, 239–250.
 
11.
Guerrero L., Claret A., Verbeke W., Enderli G., Zakowska-Biemans S., Vanhonacker F., Issanchouc S., Sajdakowska M., Granlie B.S., Scalvedif L., Contelf M., Herslethe M., 2010. Perception of traditional food products in six European regions using free word association. Food Qual. Prefer. 21, 225–233.
 
12.
ISO 13299.2:2003. Sensory analysis. Methodology. General guidance for establishing a sensory profile.
 
13.
ISO 8586:2012. Sensory analysis. General guidance for the selection, training and monitoring of assessors.
 
14.
Jaworska D., Przybylski W., Kajak-Siemaszko K., Olczak E., Skierka E., Niemyski S., 2009. Evaluation of technological value and sensory quality of pork meat originated from two paternal PenArLan lines. Rocz. Nauk. Pol. Tow. Zoo. 5, 105–113.
 
15.
Jiménez-Colmenero F., Ventanas J., Toldrá F., 2010. Nutritional composition of dry-cured ham and its role in a healthy diet. Meat Sci 84, 585–593.
 
16.
Lo Fiego D.P., Macchioni P., Santoro P., Pastorelli G., Corino C., 2005. Effect of dietary conjugated linoleic acid (CLA) supplementation on CLA isomers content and fatty acid composition of dry-cured Parma ham. Meat Sci. 70, 285–291.
 
17.
Lorido L., Ventanas S., Akcan T., Estévez M., 2016. Effect of protein oxidation on the impaired quality of dry-cured loins produced from frozen pork meat. Food Chem. 196, 1310–1314.
 
18.
Lucarini M., Saccani G., D’Evoli L., Tufi S., Aguzzi A., Gabrielli P., Marletta L., Lombardi-Boccia G., 2013. Micronutrients in Italian ham: A survey of traditional products. Food Chem. 140, 837–842.
 
19.
Marušić N., Petrović M., Vidaček S., Petrak T., Medić H., 2011. Characterization of traditional Istrian dry-cured ham by means of physical and chemical analyses and volatile compounds. Meat Sci. 88, 786–790.
 
20.
Nowicka K., Przybylski W., Górska E., Jaworska D., Wołosiak R., Derewiaka D., 2018. Variability in nutritional value of traditional goose meat product. Anim. Sci. Pap. Rep. 4, 405–420.
 
21.
Olkiewicz M., Moch P., Makała H., 2006. Characteristics of hams ripening in raw state produced from raw material coming from selected primitive Polish races. Rocz. Inst. Przem. Mięs. Tłuszcz. 44, 141–149.
 
22.
Petrón M.J., García-Regueiro J.A., Martin L., Muriel E., Antequera T., 2003. Identification and quantification of cholesterol and cholesterol oxidation products in different types of Iberian hams. J. Agri. Food Chem. 51, 5786–5791.
 
23.
Petrón M.J., Muriel E., Timón M.L., Martín L., Antequera T., 2004. Fatty acids and triacylglycerols profiles from different types of Iberian dry-cured hams. Meat Sci. 68, 71–77.
 
24.
Ramos A.M., Serenius T.V., Stalder K.J., Rothschild M.F., 2007. Phenotypic correlations among quality traits of fresh and dry-cured hams. Meat Sci. 77, 182–189.
 
25.
Sandler S.R., Karo W., 1992. Source Book of Advances Organic Laboratory Preparations. Academic Press, CA: San Diego, USA.
 
26.
Ventanas S., Ruiz J., García C., Ventanas J., 2007. Preference and juiciness of Iberian dry-cured loin as affected by intramuscular fat content, crossbreeding and rearing system. Meat Sci. 77, 324–330.
 
ISSN:0084-5477
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