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Meat Quality of Lambs Fed on Palm Kernel Meal, a By-product of Biodiesel Production
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 Title & Authors
Meat Quality of Lambs Fed on Palm Kernel Meal, a By-product of Biodiesel Production
Ribeiro, R.D.X.; Oliveira, Ronaldo Lopes; Macome, F.M.; Bagaldo, A.R.; Silva, M.C.A.; Ribeiro, C.V.D.M.; Carvalho, G.G.P.; Lanna, D.P.D.;
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 Abstract
This study aimed to establish the optimum level of palm kernel meal in the diet of Santa Ines lambs based on the sensorial characteristics and fatty acid profile of the meat. We used 32 lambs with a starting age of 4 to 6 months and mean weight of , kept in individual stalls. The animals were fed with Tifton-85 hay and a concentrate mixed with 0.0, 6.5, 13.0 or 19.5% of palm kernel meal based on the dry mass of the complete diet. These levels formed the treatments. Confinement lasted 80 days and on the last day the animals were fasted and slaughtered. After slaughter, carcasses were weighed and sectioned longitudinally, along the median line, into two antimeres. Half-carcasses were then sliced between the 12th and 13th ribs to collect the loin (longissimus dorsi), which was used to determine the sensorial characteristics and fatty acid profile of the meat. For sensorial evaluation, samples of meat were given to 54 judges who evaluated the tenderness, juiciness, appearance, aroma and flavor of the meat using a hedonic scale. Fatty acids were determined by gas chromatography. The addition of palm kernel meal to the diet had no effect on the sensorial characteristics of meat juiciness, appearance, aroma or flavor. However, tenderness showed a quadratic relationship with the addition of the meal to the diet. The concentration of fatty acids C12:0, C14:0 and C16:0 increased with the addition of palm kernel meal, as did the sum of medium-chain fatty acids and the atherogenicity index. Up to of 19.5% of the diet of Santa Ines lambs can be made up of palm kernel meal without causing significant changes in sensorial characteristics. However, the fatty acid profile of the meat was altered.
 Keywords
By-products;Fatty Acids;Organoleptic;Palmist;Ruminants;
 Language
English
 Cited by
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2.
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3.
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4.
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5.
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 References
1.
Andrade, M. B., F. A. F. Macedo, C. C. Jobim, L. Lombardi, F. G. Macedo and E. Gasparino. 2009. Components of live weight, carcass and meat caracteristics of lambs fed with diets containing corn grain silage. Acta. Sci. Anim. Sci. 31(2):183-189.

2.
Anualpec. 2006. Anuario da Pecuaria Brasileira. 1th edn. Sao Paulo.

3.
AOAC. 1990. Official methods of analysis. 12th edn. Association of Official Analytical Chemists, Arlington, Virginia.

4.
Banskalieva, V., T. Sahlu and A. L. Goetsch. 2000. Fatty acid composition of goat muscles and fat depots - a review. Small Rumin. Res. 37:255-268. crossref(new window)

5.
Batista, A. S. M., R. G. Costa, D. S. Garruti, M. S. Madruga, R. C. R. E.Queiroga and J. T. Araujo Filho. 2010. Effect of energy concentration in the diets on sensorial and chemical parameters of Morada Nova, Santa Inez and Santa Inez$\times$Dorper lamb meat. Rev. Bras. Zootecn. 39(9):2017-2023. crossref(new window)

6.
Beaulieu, A. D., J. K. Drackley and N. R. Merchen. 2002. Concentrations of conjugated linoleic acid (cis-9, trans-11 octadienoic acid) are not increased in tissue lipids of cattle fed with high concentrate diet supplemented with soybean oil. J. Anim. Sci. 80(3):847-861.

7.
Beriain, M. J., A. Horcada, A. Purroy, G. Lizaso, J. Chasco and J. A. Mendizabal. 2000. Characteristics of Lacha and Rasa Aragonesa lambs slaughtered at three live weights. J. Anim. Sci. 78:3070-3077.

8.
Blankson, H., J. A. Stakkestad, H. Fagertun, E. Thom, J. Wadstein and O. Gudmundsen. 2000. Conjugated linoleic acid reduces body fat mass in overweight and obese humans. J. Nutr. 130:2943-2948.

9.
Bonacina, M. S., M. T. M. Osorio, J. C. S. Osorio, G. F. Correia and J. H. Hashimoto. 2011. The influence of sex and finishing system on carcass and meat quality of Texel$\times$Corriedale lambs. Rev. Bras. Zootecn. 40(6):1242-1249. crossref(new window)

10.
Bressan, M. C., O. V. Prado, J. R. O. Perez, A. L. S. C. Lemos and S. Bonagurio. 2001. Effect of the slaughter weight on the physical-chemical characteristic of bergamacia and santa ines lambs meat. Cienc. e Tecnol. Aliment. 21(3):293-303.

11.
Carvalho, G. G. P., A. J. V. Pires, F. F. Silva, C. M. Veloso, R. R. Silva, H. G. O. Silva, P. Bonomo and S. S.Mendonca. 2004. Ingestive behavior of dairy goats fed on cocoa meal or palm cake. Pesq. Agropec. Bras. 39(9):919-925. crossref(new window)

12.
Chardigny, J. M., F. Destaillats, C. Malpuech-Brugere, J. Moulin, E. D. Bauman, A. L. Lock, D. M. Barbano, R. P. Mensink, J. B. Bezelques, P. Chaumont, N. Combe, I. Cristiani, F. Joffre, J. B. German, F. Dionise, Y. Boirie and J. L. Sebedio. 2008. Do trans fatty acids from industrially produced sources and from natural sources have the same effect on cardiovascular disease risk factors in healthy subjects? Results of the trans Fatty Acids Collaboration study. Am. J. Clin. Nutr. 87:558-566.

13.
Colomer-Rocher, F., P. Morand-Fehr and A. H. Kirton. 1987. Standard methods and procedures for goat carcass evaluation, jointing and tissue separation. Livest. Prod. Sci. 17:149-159. crossref(new window)

14.
Costa, R. G., A. S. M. Batista, P. S. Azevedo, R. C. R. E. Queiroga, M. S. Madruga and J. T. Araujo Filho. 2009. Lipid profile of lamb meat from different genotypes submitted to diets with different energy levels. Rev. Bras. Zootecn. 38(3):532-538. crossref(new window)

15.
Costa, R. G., F. Q. Cartaxo, N. M. Santos and R. C. R. E. Queiroga. 2008. Goat and sheep meat: fatty acids composition and sensorial characteristics. Rev. Bras. Saude Prod. An. 9(3):497-506.

16.
Diaz, M. T., I. Alvarez, J. De La Fuente, C. Sanudo, M. M. Campo, M. A. Oliver, M. Fonte i Furnols, F. Montossi, R. San Julian, G. R. Nute and V. Caneque. 2005. Fatty acid composition of meat from typical lamb production systems of Spain, United Kingdom, Germany and Uruguay. Meat Sci. 71:256-263. crossref(new window)

17.
Enser, M., N. Scollan and S. Gulati. 2001. The effects of ruminally-protected dietary lipid on the lipid composition and quality of beef muscle. In: Proceedings Of The 47th International Congress Of Meat Science And Technology, 47, Krakow.

18.
Fernandes, A. R. M., A. A. M. Sampaio, W. Henrique, R. R. Tullio, E. A. Oliveira and T. M. Silva. 2009. Chemical traits and fatty acids composition of beef from young bulls, steers and heifers fed corn silage and concentrate or sugarcane and concentrate with sunflower grains. Rev. Bras. Zootecn. 38(4):705-712.

19.
Ferrao, S. P. B., M. C. Bressan, R. P. Oliveira, J. R. O. Perez, E. C. Rodrigues and D. A. Nogueira. 2009. Sensory characteristics of meat of Santa Ines lamb submitted to different diets. Cienc. Agrotec. 33(1):185-190. crossref(new window)

20.
Gallo, S. B., E. R. Siqueira and G. T. Rosa. 2007. Effect the sheep and lamb nutrition on the of Triceps brachii muscle fatty acid profile of the lambs. Rev. Bras. Zootecn. 36(6):2069-2073. crossref(new window)

21.
Geay, Y., D. Bauchart, J. F. Hocquette and J. Culioli. 2001. Effect of nutritional factors on biochemical, structural and metabolic characteristics of muscles in ruminants, consequences on dietetic value and sensorial qualities of meat. Reprod. Nutr. Dev. 41:1-26. crossref(new window)

22.
Hara, A. and N. S. Radin. 1978. Lipid extraction of tissues with low-toxicity solvent. Anal. Biochem. 90:420-426. crossref(new window)

23.
Johnson, D. D. and C. H. MCGowan. 1998. Diet management effects on carcass attributes and meat quality of young goats. Small Rumin. Res. 28(3):93-98. crossref(new window)

24.
Khanal, R. C. and K. C. Olson. 2004. Factors affecting conjugated linoleic acid (CLA) content in milk, meat and egg: a review. Pak. J. Nutr. 3:82-98. crossref(new window)

25.
Khanal, R. C. 2004. Potential health benefits of conjugated linoleic acid (CLA): A Review. Asian-Aust. J. Anim. Sci. 17(9):1315-1328. crossref(new window)

26.
Kesava Rao, V., B. N. Kowale and A. K. Verma. 2003. Effect of feeding water washed neem seed kernel cake on the quality, lipid profile and fatty acid composition of goat meat. Small Rumin. Res. 47(3):213-219. crossref(new window)

27.
Lanza, M., A. Priolo, L. Biondi, M. Bella and H. Ben Salem. 2001. Replacement of cereal grains by orange pulp and carob pulp in faba bean-based diets fed to lambs: effects on growth performance and meat quality. Anim. Res. 50:21-30. crossref(new window)

28.
Licitra, G., T. M. Hernandez and P. J. Van Soest. 1996. Standardization of procedures for nitrogen fractionation of ruminant feeds. Anim. Feed Sci. Technol. 57(11):347-358. crossref(new window)

29.
Madruga, M. S., M. S. Galvao, R. G. Costa, S. E. S. Beltrao, N. M. Santos, F. M. Carvalho and V. D. Viaro. 2008. Aroma profile and chemical quality of goat Saanen meat fed with different levels of concentrate. Rev. Bras. Zootecn. 37(5):936-943. crossref(new window)

30.
Madruga, M. S., W. H. Sousa, M. D. Rosales, M. G. G. Cunha and J. F. Ramos. 2005. Quality of Santa Ines lamb meat terminated with different diet. Rev. Bras. Zootecn. 34(1):309-315. crossref(new window)

31.
Mertens, D. R. 1997. Creating a system for meeting the fiber requirements of dairy cows. J. Dairy Sci. 80(7):1463-1481. crossref(new window)

32.
Minim, V. P. R. 2006. Analise sensorial: estudos com consumidores. Vicosa.

33.
National Research Council. 1985. Nutrient requirements of sheep. 6th Ed. Washington, DC.

34.
Nunes, A. S., R. L. Oliveira, M. S. Borja, A. R. Bagaldo, F. M. Macome, I. B. Jesus, T. M. Silva, L. P. Barbosa and A. F. Garcez Neto. 2011. Intake, digestibility and blood parameters of lambs fed diets with palm kernel. Arch. Zootec. (In press).

35.
Perez, J. R. O., M. C. Bressan, N. Bragagnolo, O. V. Prado and A. L. C. Lemos. 2002. Effects of different lamb breeds and their slaughter weights on cholersterol, fatty acids and proximate composition. Cienc. Tecnol. Aliment. 22(1):11-18. crossref(new window)

36.
Pinheiro, R. S. B., A. G. Silva Sobrinho, H. B. A. Souza and S. M. Yamamoto. 2008. Sensorial meat characteristics of non castrated lambs, ewes and wethers. Rev. Bras. Saude Prod. An. 9(4):787-794.

37.
Priolo, A., D. Micol and J. Agabriel. 2001. Effects of grass feeding systems on ruminant meat colour and flavor: a review. Anim. Res. 50:185-200. crossref(new window)

38.
Priolo, A., D. Micol, J. Agabriel, S. Prache and E. Dransfield. 2002. Effect of grass or concentrate feeding systems on lamb carcass and meat quality. Meat Sci. 62:179-185. crossref(new window)

39.
Rhee, K. S., D. F. Waldron, Y. A. Ziprin and K. C. Rhee. 2000. Fatty acid composition of goat diets vs. intramuscular fat. Meat Sci. 54:313-318. crossref(new window)

40.
Rodriguez-Ruiz, J., E. Belarbi, J. L. G. Sanchez and D. L. Alonso. 1998. Rapid simultaneous lipid extraction and transesterification for fatty acid analyses. Biotechnol. Tech. 12(9):689-691. crossref(new window)

41.
Safari, E., N. M. Fogarty, G. R. Ferrier, L. D. Hopkins and A. Gilmour. 2001. Diverse lamb genotypes: Eating quality and the relationship between its objective measurement and sensory assessment. Meat Sci. 57:153-159. crossref(new window)

42.
Sanudo, C. A. 2008. Carcass and meat lamb and kid quality and development of consumer acceptability. Rev. Bras. Zootecn. 37(Suppl.):143-160. crossref(new window)

43.
Silva Sobrinho, A. G. and A. M. A. Silva. 2000. Producao de carne ovina. Rev. Nac. Carne. 285:32-44.

44.
Silva, H. G. O., A. J. V. Pires, F. F. Silva, C. M. Veloso, G. G. P. Carvalho, A. S. Cezario and C. C. Santos. 2005. Apparent digestibility of diets containing cocoa meal and palm kernel cake in lactating goats. Pesq. Agropec. Bras. 40(4):405-411.

45.
Silva, H. G. O., A. J. V. Pires, P. A. Cunha Neto, G. G. P. Carvalho, C. M. Veloso and F. F. Silva. 2007. Digestibility of nutrients in diets containing ammoniated elephant grass and cocoa meal or palm kernel cake fed to sheep. Rev. Bras. Zootecn. 36(2):499-506. crossref(new window)

46.
Siqueira, E. R., R. O. Roca, S. Fernandes and A. Uemi. 2002. Meat sensorial traits from hampshire down, Santa Ines and Bergamacia$\times$Corriedale Lambs, slaughtered at four weights. Rev. Bras. Zootecn. 31(3):1269-1272. crossref(new window)

47.
Ulbricht, T. L. V. and D. A. T. Southgate. 1991. Coronary heart disease: seven dietary factors. The Lancet 338(8773):985-992. crossref(new window)

48.
Van Soest, P. J., J. B. Robertson and B. A. Lewis. 1991. Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. J. Dairy Sci. 74(10):3583-3597. crossref(new window)

49.
Van Soest, P. J. 1963. Use of detergents in the analysis of fibrous feeds. II. A rapid method for the determination of fiber and lignin. J. Assoc. Office Anat. Chem. p. 46:829.

50.
Webb, E. C., N. H. Casey and L. Simela. 2005. Goat meat quality. Small Rumin. Res. 60:153-166. crossref(new window)

51.
Weiss, W. 1999. Energy prediction equations for ruminant. 1999. In: Cornell Nutrition Conference for Feed Manufacturers, 61. Ithaca. Proceedings Cornell University. Ithaca. pp. 176-185.

52.
Wood, J. D., R. I. Richardson, G. R. Nute, A. V. Fish, M. M. Campo, E. Kasapidou, P. R. Sheard and M. Enser. 2003. Effects of fatty acids on meat quality: a review. Meat Sci. 66:21-32.

53.
Wood, J. D., M. Enser, A. V. Fisher, G. R. Nute, P. R. Sheard, R. I. Richerdson, S. S. Hughes and F. M. Whittington. 2008. Fat deposition, fatty acid composition and meat quality: a review. Meat Sci. 78:343-358. crossref(new window)

54.
Zapata, J. F. F., L. M. J. Seabra, C. M. Nogueira, L. M. J. Seabra, N. N. Barros and A. S. Borges. 2000. Study on lamb quality from northeast Brazil - Physical and sensory properties. Cienc. Tecnol. Aliment. 20(2):274-277. crossref(new window)