2015, Number 2
<< Back Next >>
AbanicoVet 2015; 5 (2)
Effect of body condition of holstein cows on water holding capacity, insoluble collagen and shear force in Longissimus dorsi
Mendoza-Carrillo J, Martínez-Yáńez R, Díaz-Plascencia D, Ávila-Ramos F
Language: Spanish
References: 27
Page: 19-27
PDF size: 731.20 Kb.
ABSTRACT
Body condition (CC) is a form direct for to determine the general condition of cows. The aim of this research was to evaluate the effect of body condition of Holstein cows sent to trail on technological quality of
Longissimus dorsi. 180 cows from 24 to 36 months of ages were rated with body condition (CC), 10 min post mortem a sample was taken from muscle
Longissimus dorsi (LD) to determine water holding capacity (CRA), shear force (FC) 1, 5, 10, 15 and 20 days and insoluble collagen (CI) by alkaline degradation in mg and %. The CRA, FC and CI were adjusted to a model considering the body condition of cows as fixed effects, their correlation were analyzed and the comparison of means were performed with polynomial contrasts. The results showed no difference in CRA of
Longissimus dorsi in dairy cows with different CC, there was no correlation in the midst CRA with EC, CI and CC. By increasing the days of the meat maturation the EC was lower 1, 5, 10, 15 y 20 (P≤0.05) without effect of the CC. The results of insoluble colagen indicates less collagen when the body condition of cows increase (P≤0.05). In conclusion, the body condition of cows were no a measure correct to determine of water holding capacity and shear force, but it can be effect in the insoluble collagen of
Longissimus dorsi.
REFERENCES
ALEXANDER CM, Werb Z. Extracellular matrix degradation, editorial Plenum Press, New York. 1991: 255-302.
BAILEY AJ. The basis of meat texture. Journal of the Science of Food Agriculture. 1972; 23(8): 995-1007.
BERIAIN MJ, Horcada A, Purroy A, Lizaso G, Chasco J, Mendizábal JA. Characteristics of lacha and rasa aragonesa lambs slaughtered at three live weights. Journal Animal Science. 2000; 78(12): 3070-3077.
BOLEMAN SJ, Miller RK, Buyck MJ, Cross HR, Savell JW. Influence of realimentation of mature cows on maturity, color, collagen solubility, and sensory characteristics. Journal Animal Science. 1996; 74(9):2187-2194.
BOSSELMANN A, Möller C, Steinhart H, Kirchgessner M, Schwarz FJ. Pyridinoline cross-links in bovine muscle collagen. Journal of Food Science. 1995; 60(5):53-958.
BRUWER GG, Naude RT, Dutoit MM, Cloete A, Vosloo WA. An evaluation of the lamb and mutton carcass grading system in the Republic of South Africa. 2. The use of fat measurements as predictors of carcass composition. South Africa Journal of Animal Science. 1987; 17(2):85-89.
DEL CAMPO M, Brito G, Montossi F, Solares de Lima J M, San Julián R. Animal welfare and meat quality: the perspective of Uruguay, a “small” exporter country. Meat Science. 2014; 98(3)470-476.
DESTEFANIS G, Brugiapaglia A, Barge MT, Dal Molin E. Relationship between beef consumer tenderness perception and warner-braatzler shear force. Meat Science. 2007; 78(3):153-156.
DRANSFIELD E. Intramuscular composition and texture of beef muscles. Journal of the Science and Food and Agriculture. 1977; 28(9):833-842. EDMONSON AJ, Lean IJ, Weaver LD, Faver T, Webster G. A body condition scoring chart for Holstein dairy cows. Journal of Dairy Science, 1989; 72 :(1):68-78. FERGUSON JD, Galligan DT, Thomsen N. Principal descriptors of body condition score in Holstein cows. Journal of Dairy Science. 1994; 77:2695-2703.
HONIKEL KO. Reference methods for the assessment of physical characteristics of meat. Meat Science. 1998; 49(4):447-457.
JUDGE MD, Aberle ED. Effects of chronological age and postmortem aging on termal shrinkage temperature of bovine intramuscular collagen. Journal of Animal Science. 1982; 54: 68-71.
KEMP JD, Mahyuddin M, Ely DG, Fox JD, Moody WG. Effect of feeding systems, slaughter weight and sex on organoleptic properties and fatty acid composition of lamb. Journal Animal Science, 1981; 51(2):321-330.
LIGHT N, Champion AE, Voyle C, Bailey AJ. The role of epimysial, perimysil and endomysial collagen in determinating texture in six bovine muscles. Meat Science, 1985; 13(3):137-149.
MCCORMICK RJ. The flexibility of the collagen compartment of muscle. Meat Science, 1994; 36(1-2):79-91.
MCKEITH FK, Devol DL, Miles RS, Bechtel PJ, Carr TR. Chemical and sensory properties of thirteen major beef muscle. Journal of Food Science, 1985; 50(4):869-872.
MILLER GJ, Cross HR, Crouse JD, Jenkins TG. Effect of feed energy intake on collagen characteristics and muscle quality of mature cows. Meat Science, 1987; 21():287-294.
MONSON F, Sańudo C, Sierra I. Influence of cattle breed and ageing time on textural meat quality. Meat Science, 2004; 68(4):595-602.
NISHIMURA T, Hattori A, Takahashi K. Structural weakening of intramuscular connective tissue during conditioning of beef. Meat Science, 1995; 9(1):127-133.
NISHIMURA T, Hattori A, Takahashi K. Structural changes in intramuscular connective tissue during the fattening of japanese black cattle: effect of marbeling on beef tenderization. Journal of Animal Science, 1999; 77(1):93-104.
OTTO KL, Ferguson JD, Fox DG, Sniffen CJ. Relationship between body condition score and composition of ninth to eleventh rib tissue in Holstein dairy cows. Journal Dairy Science, 1991; 74(3):852-859.
PURCHAS RW. An assessment of the role of pH differences in determining the relative tenderness of meat from bulls and steers. Meat Science, 1990; 27(2):129-140.
RHEE M, Wheeler STL, Shackelford SD, Koohmaraie M. Variation in palatability and biochemical traits within and among eleven beef muscles. Journal Animal Science, 2004; 82(2):534-550.
SAS. 9.0. Statistical Analysis System. 2002. Institute Inc., Cary NC, USA.
STANTON C, Light N. The effects of conditioning on meat collagen: part 3 - evidence of proteolitic damage to endomysial collagen after conditioning. Meat Science, 1990; 27(1): 41-54.
STELZLENI AM, Patten LE, Johnson DD, Calkins CR, Gwartney BL. Benchmarking carcass characteristics and muscles from commercially identified beef and dairy cull cow carcasses for warner-bratzler shear force and sensory attributes. Journal Animal Science, 2007; 85(10): 2631-2638.
SYLVESTRE MN, Balcerzak D, Feidt C, Baracos VE, Brun-Bellut J. Elevated rate of collagen solubilization and post-mortem degradation in muscles of lambs with growth rates: Possible relationship with activity of matrix metaloproteinases. Journal of Animal Science, 2002; 80(7):1871-1878.
TSAI TC, Ockerman HW. Water binding measurement of meat. Journal of Food Science, 1981; 46(3):697-701.