Abstract
The aim of this study was to investigate the effect of two kinds of given diets on growth, on some carcass characteristics and on the major meat nutrients of local Algerian sheep breed. The investigated sheep breed called “Hamra” is one of the most famous breeds in Algeria. Among one 106 animals, 40 lambs were selected according to their age, similar livestock characteristics and body weight. The samples were divided into two equal groups: control and experimental lambs according to their live weight; 24.63 ± 0.47 and 24.35 ± 0.64 kg, respectively. Both groups were fed with two varieties of concentrate diets: corn diet based for the first group of control lambs (n = 20) and corn substituted by barley (Variety Saïda 183) for the second experimental group lambs (n = 20). Both diets were supplemented with 200 g straw of barley/animal/ration. The chemical analysis of diets showed an elevated crude fibre content in the commercial concentrate. However, the experimental concentrate contained higher amounts of calcium. After 59 days of fattening, no significant difference was found among the two studied groups on the growth performance (p > 0.05), showing the same final body weight. In contrast, a significant difference was found (p ≤ 0.001) in relation to the cost of the given diet. This could affect the price of the produced meat. At 37.85 ± 0.78 kg live weight, 10 lambs fed with experimental concentrate were slaughtered. The dressing percentage was 46.65 %, with 2.49 % of carcass shrink. Furthermore, an interesting percentage of total muscle was obtained (63.73 %) with a good carcass conformation scoring 9.56. Compared to other breed sheep, Hamra carcass could be considered as the most valuable one economically.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abdullah Y.A., Qudsieh R.I. 2008. Carcass characteristics of Awassi ram lambs slaughtered at different weights. Livestock Science, 117, 165–175.
Agricultural Food and Research Council (AFRC). 1991. A reappraisal of the calcium and phosphorus requirements of sheep and cattle. Nutrition Abstracts and Reviews, 61, 573–612.
Akin Yakan and Necmettin Ünal, 2010. Meat production traits of a new sheep breed called Bafra in Turkey 1. Fattening, slaughter, and carcass characteristics of lambs. Trop Animal Health and Production, 42:751–759
Andrès, S., Murray, I., Navajas, E. A., Fisher, A. V., Lambe, N. R., & Bunger, L. 2007. Prediction of sensory characteristics of lamb meat samples by near infrared reflectance spectroscopy. Meat Science, 76, 509–516.
AOAC, 2005. Official method of analysis. 18th ed. AOAC Int. Gaithersburg, MD
Atti N., Ben Salem H., Priolo A. 2003. Effects of polyethylene glycol in concentrate or feed blocks on carcass composition and offal weight of Barbarine lambs fed Acacia cyanophylla Lindl. foliage. Animal Research, 52, 363–375.
Bulent Ekiz, Gulcan Demirel, Alper Yilmaz, Mustafa Ozcan, Hulya Yalcintan, Omur Kocak, Ahmet Altinel. 2013. Slaughter characteristics, carcass quality and fatty acid composition of lambs under four different production systems. Small Ruminant Research, 114, 26– 34.
Caparra P., Foti F., Scerra M., Cilione C., Vottari G., Sinatra M.C. 2005. Influence of ewe feeding systems on carcass quality of suck-ling lambs. Italian Journal of Animal Science, 4, 354–356.
Carrasco S., Ripoll G., Sanz A., Álvarez-Rodríguez J., Panea B., Revilla R., Joy M., 2009. Effect of feeding system on growth and carcass characteristics of Churra Tensina light lambs. Livestock Science, 121, 56–63.
Chellig R. 1992. The Algerian sheep breeds. First Edition. Office of University Publications. 80 p.
Chestnutt D. M. B. 1994. Effect of lamb growth rate and growth pattern on carcase fat levels. Animal Production, 58, 77–85.
Colomer-Rocher, F., Morand-Fehr, P. and Kirton, A.H. 1987. Standard methods and procedures for goat carcass evaluation, jointing and tissue separation. Livestock Production Science, 17, 149–159.
Cone J. W., W. Cline-Theil A. Malestein, and A. th van’t Klooster. 1989. Degradation of starch by incubation with rumen fluid. A comparison of different starch sources. Journal of the Science of Food and Agriculture, 49:173.
Diaz M.T., Velasco S., Caneque V., Lauzurica S., Ruiz de Huidobro F., Perez C., Gonzales J., Manzanares C. 2002. Use of concentrate or pasture for fattening lambs and its effect on carcass and meat quality. Small Ruminant Research, 43, 257–268.
Diaz M.T., Velasco S., Perez C., Lauzurica S., Huidobro F., Caneque V. 2003. Physico-chemical characteristics of carcass and meat Manchego-breed suckling lambs slaughtered at different weights, Meat Science. 65, 1247–1255.
European Union. 1992. Council Regulation (EEC) No 2137/92 of 23 July 1992 concerning the Community scale for the classification of carcases of ovine animals and determining the Community standard quality of fresh or chilled sheep carcass and extending Regulation (EEC) No 338/91. Official Journal L 214 of 30-07-1992.
Fahmy M. H., Boucher J. M., Pose L. M., Grégoire R., Butler G., Comeau J. E. 1992. Feed efficiency, carcass characteristics, and sensory quality of lambs, with or without prolific ancestry, fed diets with different protein supplements. Journal of Animal Science, 70, 1365–1374.
Faostat 2013. http://faostat.fao.org. Accessed 20 March 2015.
Freer, M., Dove, H., Nolan, J., 2007. Nutrient Requirements of Domesticated Ruminants. CSIRO Publishing, Canberra.
Galyean M.L., Defoor P.J. 2003. Effects of roughage source and level on intake by feedlot cattle. Journal of Animal Science, 81 (Suppl. 2), E8–E16.
Greer G.C., Jones S.D.M. 1997. Quality and bacteriological consequences of beef carcass spray-chilling: Effects of spray duration and boxed beef storage temperature. Meat Science, 45, 61–73.
Haddad S.G., Husein M.Q., Sweidan R.W. 2006. Effects of castration on growth performance and carcass characteristics of Awassi lambs fed high concentrate diet. Small Ruminant Research, 65, 149–153
Haddad S.G., Nasr R.E. 2007. Partial replacement of barley grain for corn grain: Associative effects on lambs’ growth performance. Small Ruminant Research, 72, 92–95.
ISO 1442, 1997. International standards meat and meat products. Determination of nitrogen content.
ISO 1443, 1973. International standards meat and meat products. Determination of total fat content.
ISO 936, 1998. International standards meat and meat products. Determination of total ash in meat.
ISO 937, 1978. International standards meat and meat products. Determination of nitrogen content.
Joy M., Ripoll G., Delfa R. 2008. Effects of feeding system on carcass and non-carcass composition of Churra Tensina light lambs. Small Ruminant Research 78, 123–133.
Juàrez M., Horcada A., Alacde M. J., Valera M., Mullen A.M., Molina A. 2008. Estimation of factors influencing fatty acid profiles in light lambs. Meat Science, 79, 203–210.
Kempster A. J., Chadwick J. P., Cue R. I., Granley-Smith M. 1986. The estimation of sheep carcass composition from fat and muscle thickness measurements taken by probes. Meat Science, 16, 113– 126.
Knott S.A., Leury B.J., Cummins L.J., Brien F.D., Dunshea F.R. 2003. Relationship between body composition, net feed intake and gross feed conversion efficiency in composite sire line sheep. In: Souffrant, W.B. and C.C. Metges eds. (Progress in research on energy and protein metabolism). EAAP publ. Wageningen. 109 p.
Kremer R., Barbato G., Castro L., Rista L., Rosés L., Herrera V., Neirotti V. 2004. Effect of sire breed, year, sex and weight on carcass characteristics of lambs. Small Ruminant Research, 53, 117–124.
Majdoub-Mathlouthi L., Saïd B., Say A., Kraiem K., 2013. Effect of concentrate level and slaughter body weight on growth performances, carcass traits and meat quality of Barbarine lambs fed oat hay based diet. Meat Science, 93, 557–563.
Mann S.O., Ørskov E.R. 1975. The effect of feeding whole or pelleted barley to lambs on their rumen bacterial populations and pH. (Proceedings of the Nutrition Society 34), 63–64.
Martin-Orue S.M., Balcells J., Vicente F., Castrillo C. 2000. Influence of dietary rumen-degradable protein supply on rumen characteristics and carbohydrate fermentation in beef cattle offered high-grain diets. Animal Feed Science and Technology, 88, 59–77.
McDonald P., Edward R.A., Greenhalgh J.F.D.F., Morgan C.A. 1996. Animal Nutrition. (Logman Scientific and Technical). Harlow, UK. 155 p.
Mushi D.E., Safari J., Mtenga, L.A., Kifaro G.C., Eik L.O. 2009. Effects of concentrate levels on fattening performance, carcass and meat quality attributes of Small East African × Norwegian crossbred goats fed low quality grass hay. Livestock Science, 124, 148–155.
National Institute for Agricultural Research (INRA). 1978. Nutrition of Ruminant. INRA Publications, Versailles (France).
National Research Council (NRC). 1985. Nutrient Requirement of Sheep. (National Academic Press), Washington. 99 pp.
Notter D.R., Ferrel C.L., Field R.A., 1984. Effects of breed and intake level on growth and feed efficiency in ram lambs. Journal of Animal Science, 58, 560–576.
Obeidat B.S., Abdullah A.Y., Al-Lataifeh F.A. 2008. The effect of partial replacement of barley grains by Prosopis juliflora pods on growth performance, nutrient intake, digestibility, and carcass characteristics of Awassi lambs fed finishing diets. Animal Feed Science and Technology, 146, 42–54.
Ørskov, E. R., and C. Fraser. 1975. The effect of processing of barley based supplements on rumen pH, rate of digestion and voluntary intake in sheep. British Journal of Nutrition. 34:493.
Pinheiro R.S.B., Jorge A.M., Souza H.B.A. 2009. Carcass and non-components of carcass characteristics of discarded ewes slaughtered at different physiological stages. Revista Brasileira de Zootecnia, 38, 1322–1328.
Portilho F.P., Vitti D.M.S.S., Abdalla A.L., McManus C.M., Rezende M.J.M., Louvandini H. 2006. Minimum phosphorus requirement for Santa Ines lambs reared under tropical conditions. Small Ruminant Research, 63, 170–176.
Purchas R.W., Silva Sobrinho A.G., Garrick D.J., Lowe K.I. 2002. Effects of age at slaughter and sire genotype on fatness, muscularity, and the quality of meat from ram lambs born to Romney ewes. New Zealand of Agricultural Research, 45, 77–86.
Rodríguez A.B., Bodas R., Prieto N., Landa R., Mantecón A.R., Giráldez F.J. 2008. Effect of sex and feeding system on feed intake, growth, and meat and carcass characteristics of fattening Assaf lambs. Livestock Science, 116, 118–125.
SPSS (2011). Statistical Package for the Social Sciences, release 20.0. Chicago, IL, USA: SPSS Inc.
Stern, M. D., H. Hoover, C. J. Sniffen, B. A. Crooker, and Knowlton P. H. 1978. Effects of non-structural carbohydrate, urea, and soluble protein levels on microbial protein synthesis in continuous culture of rumen contents. Journal of Animal Science. 47:944.
Surber L.M.M., Bowman J.G.P. 1998. Monensin effects on digestion of corn or barley high concentrate diets. Journal of Animal Science, 76, 1945–1954.
Taylor St. C.S., Murray J.I., Thonney M.L. 1989. Breed and sex differences among equally mature sheep and goats. 4. Carcass muscle, fat and bone. Animal Production, 49, 385–409.
Van Soest P.J., Robertson J.B., Lewis B.A. 1991. Methods for dietary fibre, neutral detergent fibre, and nonstarch carbohydrates in relation to animal nutrition. J. Dairy Sci. 74, 3583–3597.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare that they have no competing interests.
Rights and permissions
About this article
Cite this article
Ziani, K., Khaled, M.B. Partial substitution of barley for corn: effect on “Hamra” lamb growth performance, carcass and meat characteristics. Trop Anim Health Prod 48, 517–524 (2016). https://doi.org/10.1007/s11250-015-0983-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11250-015-0983-4