Diante do grande consumo de carne a nível mundial, bem como a ascensão do vegetarianismo e veganismo, os consumidores de carne, especialmente de carne de grandes animais, estão cada vez mais exigentes quantos aos aspectos sensoriais e características organolépticas e de bem-estar animal cabendo, com isso, ao mercado abastecer o mercado cárneo com produtos de alta qualidade. Deve-se assegurar a qualidade para satisfazer o consumidor. A qualidade da carcaça, assim como a da carne podem ser influenciadas por diversos fatores, entre eles a raça e o tipo ou sistema de alimentação podem possuir maior influência, dependendo do sistema de produção ao qual os animais estão submetidos. A qualidade dos produtos tem adquirido relevância durante as últimas décadas, sendo considerada de distinta forma pelos integrantes da cadeia agroalimentar. Os consumidores, produtores e a indústria possuem distinta importância sobre os parâmetros de qualidade da carne e da carcaça; todavia, todos os integrantes da cadeia cárnea devem assegurar qualidade para um correto e idôneo funcionamento e melhorar sua competitividade. A raça pode influenciar os pesos, rendimentos e conformação da carcaça, entre outras variáveis, como também o pH e a composição de ácidos graxos da carne. Enquanto o manejo nutricional afeta a conformação da carcaça, as características de maciez, cor, composição química e de ácidos graxos. É por esses motivos que nos diferentes sistemas de produção de ovinos os efeitos da raça e da alimentação devem ser considerados para a obtenção de um produto de qualidade que satisfaça as demandas dos consumidores.

Horcada A, Beriain MJ, Purroy A, et al. Effect of sex on meat quality of Spanish lamb breeds (Lacha and Rasa Aragonesa). J Anim Sci. 1998;67(3):541-547. http://dx.doi.org/10.1017/S1357729800032975.

Vergara H, Molina A, Gallego L. Influence of sex and slaughter weight on carcass and meat quality in light and medium weight lambs produced in intensive systems. Meat Sci. 1999;52(2):221-226. https://doi.org/10.-1016/S0309-1740(98)00171-5.

Barone CMA, Colatruglio P, Girolami A, et al. Genetic type, sex, age at slaughter and feeding system effects on carcass and cut composition in lambs. Livest Sci. 2007;112(1-2):133-142. https://doi.org/10.1016/j.livsci.-2007.02.003.

Hopkins DL, Walker PJ, Thompson JM, et al. Effect of sheep type on meat and eating quality of sheep meat. Aust J Exp Agric. 2005;45(5):499-507. https://doi.org/10.1071/EA03176.

Jacques J, Berthiaume R, Cinq-Mars D. Growth performance and carcass characteristics of Dorset lambs fed different concentrates:forage ratios or fresh grass. Small Rumin Res. 2011;95(2-3):113-119. https://doi.org-/10.1016/j.smallrumres.2010.10.002.

Crouse JD, Busboom JR, Field RA, et al. The effects of breed, diet, sex, location and slaughter weight on lamb growth, carcass composition and meat flavor. J Anim Sci. 1981;53(2):376-386. https://doi.org/10.25-27/jas1981.532376x.

Hopkins DL, Fogarty NM. Diverse lamb genotypes. 2. Meat pH, colour and tenderness. Meat Sci. 1998;49(4):477-488. https://doi.org/10.1016/S0309-1740(98)00051-5.

Kremer R, Barbato G, Castro L, et al. Effect of sire breed, year, sex and weight on carcass characteristics of lambs. Small Rumin Res. 2004;53(1-2):117-124. https://doi.org/10.1016/j.smallrumres.2003.09.002.

Instituto Brasileiro de Geografia e Estatística (IBGE). Pesquisa da Pecuária Municipal 2022. https://www.ibge.gov.br/estatisticas/economicas/agricultura-e-pecuaria/9107-producao-da-pecuaria munici-pal.html?=&t=resultados. Acessado em 27 de fevereiro de 2024.

USDA. Livestock and poultry outlook (2024). https://www.usda.gov/sites/default/files/documents-/2024AOF-livestock-poultry-outlook.pdf. Acessado em 28 de fevereiro de 2024.

Our World in Data. Per capita meat consumption by type, 1961 to 2020. https://ourworldindata.org/gra-pher/per-capita-meat-consumption-by-type-kilograms-per-year?country=OW-ID_WRL~BRA. Acessado em 27 de fevereiro de 2024.

Hervé M. Carne ovina: producción, características y oportunidades en lo que hoy demanda el consumidor nacional e internacional. Informe de Experto – Carne Rojas. Ministerio de Agricultura: Gobierno de Chile, 2013. https://bibliotecadigital.odepa.gob.cl/handle/20.500.12650/70056. Acessado em 27 de fevereiro de 2024.

Embrapa Caprinos e Ovinos. Frigoríficos e Laticínios no Brasil que operam com produtos de origem ovina. https://www.embrapa.br/en/cim-inteligencia-e-mercado-de-caprinos-e-ovinos/frigorificos-e-laticinios. Acessado em 28 de fevereiro de 2024.

Sepúlveda WS, Maza MT, Pardos L. Aspects of quality related to the consumption and production of lamb meat. Consumers versus producers. Meat Sci. 2011;87(4):366-372. https://doi.org/10.1016/j.meatsci.2010.11-.013.

Becker T. Consumer perception of fresh meat quality: a framework for analysis. British Food J. 2000;102(3):158-176. https://doi.org/10.1108/00070700010371707.

Rodrigues S, Cadavez V, Teixeira A. Breed and maturity effects on Churra Galega Bragancana and Suffolk lamb carcass characteristics: Killing-out proportion and composition. Meat Sci. 2006;72(2):288-293. https://doi.org/10.1016/j.meatsci.2005.07.019.

Sepúlveda WS, Maza MT, Mantecón AR. Factors that affect and motivate the purchase of quality-labelled beef in Spain. Meat Sci. 2008;80(4):1282-1289. https://doi.org/10.1016/j.meatsci.2008.06.012.

Warner RD, Greenwood PL, Pethick DW, et al. Genetic and environmental effects on meat quality. Meat Sci. 2010;86(1):171-183. https://doi.org/10.1016/j.meatsci.2010.04.042.

Font I Furnols M, Realini C, Montossi F, et al. Consumer's purchasing intention for lamb meat affected by country of origin, feeding system and meat price: A conjoint study in Spain, France and United Kingdom. Food Qual Pref. 2011;22(5):443-451. https://doi.org/10.1016/j.foodqual.2011.02.007.

Ministério da Agricultura, Pecuária e Abastecimento (MAPA). Portarias nº 193 de 22/06/1984 e nº 220 de 24/09/1981. https://wikisda.agricultura.gov.br/dipoa_baselegal/port_612-1989_tipifica%C3%A7%C3%A3o-carca%C3%A7a_bov.pdf. Acessado em 04 de março de 2024.

Cezar MF, Sousa WH. Carcaças ovinas e caprinas: obtenção, avaliação e classificação. 1ª ed. Uberaba: Agropecuária Tropical, 2007.

Díaz-Chirón MTD. Características de la canal y de la carne de corderos lechales manchegos. Correlaciones y ecuaciones de predicción. Madrid. Tese [PhD em Veterinária] – Universidad Complutense de Madrid; 2001. 308 p.

Carter LM, Gallo CB. Efectos del transporte prolongado por vía terrestre y cruce marítimo en transbordador sobre pérdidas de peso vivo y características de la canal en corderos. Arch Med Vet. 2008;40(3):259-266. http://dx.doi.org/10.4067/S0301-732X2008000300006.

Lambe NR, Navajas EA, Fisher AV, et al. Prediction of lamb meat eating quality in two divergent breeds using various live animal and carcass measurements. Meat Sci. 2009;83(3):366-375. https://doi.org/10.1016/j.-meatsci.2009.06.007.

Díaz-Chirón MTD, Velasco S, Cañeque V, et al. Use of concentrate or pasture for fattening lambs and its effect on carcass and meat quality. Small Rumin Res. 2002;43(3):257-268. https://doi.org/10.1016/S0921-4488(02)00016-0.

Carrasco S, Ripoll G, Sanz A, et al. Effect of feeding system on growth and carcass characteristics of Churra Tensina light lambs. Livest Sci. 2009;121(1):56-63. https://doi.org/10.1016/j.livsci.2008.05.017.

Tarumán JA, Gallo CB. Contusiones en canales ovinas y su relación con el transporte. Arch Med Vet. 2008;40(3):275-279. http://dx.doi.org/10.4067/S0301-732X2008000300008.

Thatcher LP, Maden JJL, Plant CL. Effects of sex and year on growth and live assessment of carcass characteristics of lambs grazing annual pastures. Aust J Exp Agric. 1991;31:307-314. https://doi.org/10.1071/-EA9910307.

Santos-Silva J, Mendes IA, Bessa RJB. The effect of genotype, feeding system and slaughter weight on the quality of light lambs. 1. Growth, carcass composition and meat quality. Livest Prod Sci. 2002;76(1-2):17-25. https://doi.org/10.1016/S0301-6226(01)00334-7.

Leymaster KA, Jenkins TG. Comparison of Texel-and Suffolk-sired crossbred lambs for survival, growth, and compositional traits. J Anim Sci. 1993;71(4):859-869. https://doi.org/10.2527/1993.714859x.

Pérez P, Maino M, Morales MS, et al. Gender and slaughter weight effects on carcass quality traits of suckling lambs from four different genotypes. Small Rumin Res. 2007;70(2-3):124-130. https://doi.org/10.10-16/j.smallrumres.2006.01.01.

Gonzaga Neto S, Silva Sobrinho AG, Zeola NMBL, et al. Características quantitativas da carcaça de cordeiros deslanados Morada Nova em função da relação volumoso:concentrado na dieta. Rev Bras Zootec. 2006;35(4):1487-1495. https://doi.org/10.1590/S1516-35982006000500031.

Zeola NMBL. Influência da alimentação nas características quantitativas da carcaça e qualitativas da carne de cordeiros Morada Nova. Jaboticabal. Dissertação [Mestrado em Zootecnia] – Universidade Estadual Paulista; 2002. 78 p.

Sellaive-Villarroel AB, Souza Júnior FA. Crescimento e características de carcaça de cordeiros mestiços Santa Inês e Somalis x srd em regime semi-intensivo de criação. Ciênc Agrotec. 2005;29(5):948-952. https://-doi.org/10.1590/S1413-70542005000500005.

Muniz EN, Silva AVC, Mourão Junior M. Desempenho e características da carcaça de cordeiros Barriga Negra suplementados com concentrados formulados com diferentes fontes energéticas. Rev Ciênc Agrár. 2008;49(1):31-39.

Farias TJ. Características de carcaça e não carcaça de cordeiros Dorper x Santa Inês alimentados com palma forrageira ou vagem de algaroba. Itapetinga. Dissertação [Mestrado em Zootecnia] – Universidade Estadual do Sudoeste da Bahia; 2014. 66 p.

Cartaxo FQ, Sousa WH, Cezar MF, et al. Desempenho e características de carcaça de cordeiros Santa Inês e suas cruzas com Dorper terminados em confinamento. Rev Bras Saúde Prod Anim. 2017;18(2):388-401. https://doi.org/10.1590/S1519-99402017000200017.

Cartaxo FQ, Sousa WH, Costa RG, et al. Características quantitativas da carcaça de cordeiros de diferentes genótipos submetidos a duas dietas. Rev Bras Zootec. 2011;40(10):2220-2227. https://doi.org/10.1590/S1516-35982011001000023.

Mustafa MI, Chadwick JP, Akhtar P, et al. The effect of concentrate-and silage-based finishing diets on the growth performance and carcass characteristics of Suffolk Cross and Scottish Blackface lamb. Turkish J Vet Anim Sci. 2008;32(4):191-197.

Garcia IFF, Perez JRO, Oliveira MV. Características de carcaça de cordeiros Texel x Bergamácia, Texel x Santa Inês e Santa Inês Puros, terminados em confinamento, com casca de café como parte da dieta. Rev Bras Zootec. 2000;29(1):253-260. https://doi.org/10.1590/S1516-35982000000100033.

Ponnampalam EN, Warner RD, Kitessa S, et al. Influence of finishing systems and sampling site on fatty acid composition and retail shelf-life of lamb. Anim Prod Sci. 2010;50(8):775-781. https://doi.org/10.1071/-AN10025.

Da Silva EIC. Alimentação pré-desmame e pós-desmame de fêmeas ovinas de reposição. Rev Univer Bras. 2023;1(2):73-95. https://doi.org/10.5281/zenodo.8341763.

Pérez P, Maino M, Tomic G, et al. Carcass characteristics and meat quality of Suffolk Down suckling lambs. Small Rumin Res. 2002;44(3):233-240. https://doi.org/10.1016/S0921-4488(02)00076-7.

Lewis RM, Emmans GC, Simm G. Effects of index selection on the carcass composition of sheep given either ad libitum or controlled amounts of food. Anim Sci. 2002;75(2):185-195. https://doi.org/10.1017/S13-57729800052954.

Sañudo C, Enser ME, Campo MM, et al. Fatty acid composition and sensory characteristics of lamb carcasses from Britain and Spain. Meat Sci. 2002;54(4):339-346. https://doi.org/10.1016/S0309-1740(99)-00108-4.

Priolo A, Micol D, Agabriel J, et al. Effect of grass or concentrate feeding systems on lamb carcass and meat quality. Meat Sci. 2002;62(2):179-185. https://doi.org/10.1016/S0309-1740(01)00244-3.

Dantas AF, Pereira Filho JM, Silva AMA, et al. Características da carcaça de ovinos Santa Inês terminados em pastejo e submetidos a diferentes níveis de suplementação. Ciênc Agrotec. 2008;32(4):1280-1286. https://doi.org/10.1590/S1413-70542008000400037.

Pimentel NCR. Características de carcaça de ovinos mantidos em pasto de Capim-massai e submetidos à suplementação intermitente. Macaíba. Dissertação [Mestrado em Produção Animal] – Universidade Federal do Rio Grande do Norte; 2022. 37 p.

Moura CM, Kasper N, Bandeira L, et al. Impacto de sistemas de alimentação na terminação de cordeiros: idade de abate e custo de produção. Salão do Conhecimento. 2021;7(7):1-16. https://www.publicacoeseventos-.unijui.edu.br/index.php/salaoconhecimento/article/view/20665.

Fraser TJ, Scott SM, Rowarth JS. Pasture species effects on carcass and meat quality. Proc New Zealand Grassl Assoc. 1996;58:63-66. https://doi.org/10.33584/jnzg.1996.58.2218.

Prache S, Gatellier P, Thomas A, et al. Comparison of meat and carcass quality in organically reared and conventionally reared pasturefed lambs. Anim. 2011;5(12):2001-2009. https://doi.org/10.1017/S1751731111-001030.

Coelho ER. Extrato da vagem de Prosopis Juliflora (SW) DC. como aditivo fitogênico sobre as características de carcaça e qualidade da carne de ovinos terminados a pasto no Semiárido. Garanhuns. Mestrado [Ciência Animal e Pastagens] – Universidade Federal Rural de Pernambuco; 2017. 88 p.

Olascoaga GB, Garibotto G, Betancur O, et al. Características productivas y calidad de canal y de la carne en corderos pesados Corriedale y Hampshire Down x Corriedale. Rev Arg Prod Anim. 2005;25:75-91.

Dal Prá A, Crovetti A, Sirtori F, et al. In vita performance and slaughter characteristics of Suffolk and Bergamasca lambs at 90 days of age. Italian J Anim Sci. 2009;8(2):492-494. https://doi.org/10.4081/ijas.-2009.s2.492.

Fernandes Júnior GA, Lôbo RNB, Madruga MS, et al. Genotype effect on carcass and meat quality of lambs finished in irrigated pastures in the semiarid Northeastern Brazil. Arq Bras Med Vet Zootec. 2013;65(5):1208-1216. https://doi.org/10.1590/S0102-09352013000400037.

Santos-Silva J. Portugal AV. The effect of weight on carcass and meat quality of Serra da Estrela and Merino Branco lambs fattened with dehydrated lucerne. Anim Res. 2001;50(4):289-298. https://doi.org/-10.1051/animres:2001132.

Pérez P, Maino M, Morales MS, et al. Meat quality and carcass characteristics of Merino Precoce suckling lambs raised under confinement in the Mediterranean semi-humid dryland of Central Chile. Cienc Inv Agr. 2012;39(2):289-298. http://dx.doi.org/10.4067/S0718-16202012000200005.

Brito GF. Desempenho e qualidade da carcaça e da carne de ovinos de diferentes grupos genéticos terminados em confinamento. Jaboticabal. Tese [Doutorado em Genética e Melhoramento Animal] – Universidade Estadual Paulista; 2017. 105 p.

Oliveira DS, Rogério MCP, Batista ASM, et al. Desempenho e características de carcaça de cordeiros SPRD cruzados com as raças Santa Inês e Somalis Brasileira terminados em confinamento. Rev Bras Saúde Prod Anim. 2014;15(4):937-946.

Araújo CGF, Costa MG, Difante GS, et al. Carcass characteristics, meat quality and composition of lambs finished in cultivated pastures. Food Sci Technol. 2022;42:1-6. https://doi.org/10.1590/fst.71420.

Pearson AM, Young RB. Muscle and meat biochemistry. 1ª ed. San Diego: Academic Press, 1989.

Toldrá F (Ed.). Lawrie’s meat science. 9ª ed. Cambridge: Elsevier, 2023.

McGee M, Drennan MJ, Caffrey PJ. Effect of suckler cow genotype on energy requirements and performance in winter and subsequently at pasture. Irish J Agric Food Res. 2005;44(2):157-171.

McGee M, Drennan MJ, Caffrey PJ. Effect of suckler cow genotype on energy requirements and performance in winter and subsequently at pasture. Irish J Agric Food Res. 2005;44(2):157-171.

Pearce KL, Rosenvold K, Andersen HJ, et al. Water distribution and mobility in meat during the conversion of muscle to meat and ageing and the impacts on fresh meat quality attributes-A review. Meat Sci. 2011;89(2):111-124. https://doi.org/10.1016/j.meatsci.2011.04.007.

Koohmaraie M, Whipple G, Kretchmar DH, et al. Postmortem proteolysis in longissimus muscle from beef, lamb and pork carcasses. J Anim Sci. 1991;69(2):617-624. http://dx.doi.org/10.2527/1991.692617x.

Ouali A, Herrera-Mendez CH, Coulis G, et al. Revisiting the conversion of muscle into meat and the underlying mechanisms. Meat Sci. 2006;74(1):44-58. https://doi.org/10.1016/j.meatsci.2006.05.010.

Weglarz A. Meat quality defined based on pH and colour depending on cattle category and slaughter season. Czech J Anim Sci. 2010;55(12):548-556. https://doi.org/10.17221/2520-CJAS.

Priolo A, Micol D, Agabriel J. Effects of grass feeding systems on ruminant meat colour and flavour. A review. Anim Res. 2001;50(3):185-200. https://doi.org/10.1051/animres:2001125.

Mounier L, Dubroeucq H, Andanson S, et al. Variations in meat pH of beef bulls in relation to conditions of transfer to slaughter and previous history of the animals. J Anim Sci. 2006;84(6):1567-1576. https://doi.-org/10.2527/2006.8461567x.

Tejeda JF, Peña RE, Andrés AI. Effect of live weight and sex on physico-chemical and sensorial characteristics of Merino lamb meat. Meat Sci. 2008;80(4):1061-1067. https://doi.org/10.1016/j.meatsci-.2008.04.026.

Moore ME, Han IY, Acton JC, et al. Effects of antioxidants in polyethylene film on fresh beef color. J Food Sci. 2003;68(1):99-104. https://doi.org/10.1111/j.1365-2621.2003.tb14122.x.

Koohmaraie M, Kent MP, Shackelford SD, et al. Meat tenderness and muscle growth: is there any relationship?. Meat Sci. 2002;62(3):345-352. https://doi.org/10.1016/S0309-1740(02)00127-4.

Sañudo C, Alfonso M, Sánchez A, et al. Meat texture of lambs from different European production systems. Aust J Agric Res. 2003;54(6):551-560. https://doi.org/10.1071/AR02092.

Rajalakshmi D, Dhanaraj S, Chand N, et al. Descriptive quality analysis of mutton. J Sens Stud. 1987;2(2):93-118. https://doi.org/10.1111/j.1745-459X.1987.tb00191.x.

Wood JD, Enser M, Fisher AV, et al. Fat deposition, fatty acid composition and meat quality: A review. Meat Sci. 2008;78(4):343-358. https://doi.org/10.1016/j.meatsci.2007.07.019.

Fisher AV, Enser M, Richardson RI, et al. Fatty acid composition and eating quality of lamb types derived from four diverse breed production systems. Meat Sci. 2000;55(2):141-147. https://doi.org/10.1016/S0309-1740(99)00136-9.

Sañudo C, Alfonso M, Sánchez A, et al. Carcass and meat quality in light lambs from different fat classes in the EU carcass classification system. Meat Sci. 2000;56(1):89-94. https://doi.org/10.1016/S0309-1740(00)00026-7.

Givens DI. The role of animal nutrition in improving the nutritive value of animal-derived foods in relation to chronic disease. Proc Nutr Soc. 2005;64(3):395-402. https://doi.org/10.1079/PNS2005448.

Wood JD, Richardson RI, Nute GR, et al. Effects of fatty acids on meat quality: A review. Meat Sci. 2004;66(1):21-32. https://doi.org/10.1016/S0309-1740(03)00022-6.

De Smet S, Raes K, Demeyer D. Meat fatty acid composition as affected by fatness and genetic factors: a review. Anim Res. 2004;53(2):81-98. https://doi.org/10.1051/animres:2004003.

Berchielli TT, Pires AV, Oliveira SG (Eds.). Nutrição de ruminantes. 2ª ed. Jaboticabal: Funep, 2011.

Williams C. Dietary fatty acids and human health. Ann Zootech. 2000;49(3):165-180. https://doi.org/10.10-51/animres:2000116.

Schmid A, Collomb M, Sieber R, et al. Conjugated linoleic acid in meat and meat products: A review. Meat Sci. 2006;73(1):29-41. https://doi.org/10.1016/j.meatsci.2005.10.010.

Webb EC, O’Neill HA. The animal fat paradox and meat quality. Meat Sci. 2008;80(1):28-36. https://doi.-org/10.1016/j.meatsci.2008.05.029.

Scerra M, Luciano G, Caparra P, et al. Influence of stall finishing duration of Italian Merino lambs raised on pasture on intramuscular fatty acid composition. Meat Sci. 2011;89(2):238-242. https://doi.org/10.1016/j.-meatsci.2011.04.012.

Reykdal O, Rabieh S, Steingrimsdottir L, et al. Minerals and trace elements in Icelandic dairy products and meat. J Food Comp Anal. 2011;24(7):980-986. https://doi.org/10.1016/j.jfca.2011.03.002.

Polidori P, Ortenzi A, Vicenzetti S, et al. Dietary properties of lamb meat and human health. Mediterr J Nutr Metab. 2011;4(1):53-56. http://dx.doi.org/10.3233/s12349-010-0032-9.

Sheridan R, Hoffman LC, Ferreira AV. Meat quality of Boer goat kids and Mutton Merino lambs. 1. Commercial yields and chemical composition. Anim Sci. 2003;76(1):63-71. https://doi.org/10.1017/S135772-9800053327.

Osorio MT, Zumalacárregui JM, Bermejo B, et al. Effect of ewe’s milk versus milk-replacer rearing on mineral composition of suckling lamb meat and liver. Small Rumin Res. 2007;68(3):296-302. https://doi.org/-10.1016/j.smallrumres.2005.11.010.

Cabrera MC, Ramos A, Saadoun A, et al. Selenium, copper, zinc, iron and manganese content of seven meat cuts from Hereford and Braford steers fed pasture in Uruguay. Meat Sci. 2010;84(3):518-528. https://doi.-org/10.1016/j.meatsci.2009.10.007.

Hoffman LC, Muller M, Cloete SWP, et al. Comparison of six crossbred lamb types: sensory, physical and nutritional meat quality characteristics. Meat Sci. 2003;65(4):1265-1274. https://doi.org/10.1016/S0309-1740(03)00034-2.

Komprda T, Kuchtík J, Jarosová A, et al. Meat quality characteristics of lambs of three organically raised breeds. Meat Sci. 2012;91(4):499-505. https://doi.org/10.1016/j.meatsci.2012.03.004.

Kuchtík J, Zapletal D, Sustová K. Chemical and physical characteristics of lamb meat related to crossbreeding of Romanov ewes with Suffolk and Charollais sires. Meat Sci. 2012;90(2):426-430. https://doi.-org/10.1016/j.meatsci.2011.08.012.

Garcia PT, Casal JJ, Fianuchi S, et al. Conjugated linoleic acid (CLA) and polyunsaturated fatty acids in muscle lipids of lambs from the Patagonian area of Argentina. Meat Sci. 2008;79(3):541-548. https://doi.org-/10.1016/j.meatsci.2007.12.009.

Mamani-Linares LW, Gallo C. Perfil de ácidos grasos de carne de ovino y caballo criados bajo un sistema de producción extensiva. Rev Inv Vet Perú. 2013;24(3):257-263. https://doi.org/10.15381/rivep.v24i3.2573.

Blanco C, Bodas R, Prieto N, et al. Concentrate plus ground barley straw pellets can replace conventional feeding systems for light fattening lambs. Small Rumin Res. 2014;116(2-3):137-143. https://doi.org/10.1016-/j.smallrumres.2013.11.008.

Lima LD, Landim AV, Vega WHO. Morada Nova. In. Rego FCA (Org.). Caracterização da carcaça e da carne de cordeiros de corte. 1ª ed. Londrina: Editora Científica, 2020. p. 59-98.

Marino R, Albenzio M, Annichiarrico G, et al. Influence of genotype and slaughtering age on meat from Altamurana and Trimeticcio lambs. Small Rumin Res. 2008;78(1-3):144-151. https://doi.org/10.1016/j.small-rumres.2008.06.002.

Teixeira A, Batista S, Delfa R, et al. Lamb meat quality of two breeds with protected origin designation. Influence of breed, sex and live weight. Meat Sci. 2005;71(3):530-536. https://doi.org/10.1016/j.meatsci.20-05.04.036.

Navajas EA, Lambe NR, Fisher AV, et al. Muscularity and eating quality of lambs: Effects of breed, sex and selection of sires using muscularity measurements by computed tomography. Meat Sci. 2008;79(1):105-112. https://doi.org/10.1016/j.meatsci.2007.08.006.

Costa RG, Andrade MGLP, Medeiros GR, et al. Características de carcaça de ovinos Santa Inês e Morada Nova abatidos com diferentes pesos. Actas Iberoamericanas de Conservación Animal. 2011;1(1):231-234.

Osman NHI, Mahgoub O. Mineral composition of goat meat. In. Mahgoub O, Kadim IT, Webb EC (Eds.). Goat meat production and quality. 1ª ed. Wallingford, UK: CABI, 2012. p. 260-276.

Andújar G, Pérez D, Venegas O. Química y bioquímica de la carne y los productos cárnicos. 1ª ed. Havana: Editorial Universitaria, 2009.

Font I Furnols M, Realine CE, Guerrero L, et al. Acceptability of lamb fed on pasture, concentrate or combinations of both systems by European consumers. Meat Sci. 2009;81(1):196-202. https://doi.org/10.1016-/j.meatsci.2008.07.019.

Velasco S, Cañeque V, Lauzurica S, et al. Effect of different feeds on meat quality and fatty acid composition of lambs fattened at pasture. Meat Sci. 2004;66(2):457-465. https://doi.org/10.1016/S0309-1740-(03)00134-7.

Lanza M, Bella M, Priolo A, et al. Lamb meat quality as affected by a natural or artificial milk feeding regime. Meat Sci. 2006;73(2):313-318. https://doi.org/10.1016/j.meatsci.2005.12.006.

Alcalde MJ, Negueruela AI. The influence of final conditions on meat colour in light lamb carcasses. Meat Sci. 2001;57(2):117-123. https://doi.org/10.1016/S0309-1740(00)00041-3.

Aurousseau B, Bauchart D, Faure X, et al. Indoor fattening of lambs raised on pasture. Part 1: Influence of stall finishing duration on lipid classes and fatty acids in the longissimus thoracis muscle. Meat Sci. 2007;76(2):241-252. https://doi.org/10.1016/j.meatsci.2006.11.005.

Lopes LS, Martins SR, Chizzotti ML, et al. Meat quality and fatty acid profile of Brazilian goats subjected to different nutritional treatments. Meat Sci. 2014;97(4):602-608. https://doi.org/10.1016/j.meatsci.2014.03.0-05.

Costa RG, Santos NM, Egypto RCR, et al. Physicochemical characteristics and fatty acid profile of meat from lambs with different genotypes and diets. Rev Bras Zootec. 2015;44(7):248-254. https://doi.org/10.15-90/S1806-92902015000700003.

Silva NV, Silva JHV, Coelho MS, et al. Características de carcaça e carne ovina: uma abordagem das variáveis metodológicas e fatores de influência. Acta Vet Bras. 2008;2(4):103-110.

McManus C, Louvandini H, Landim A, et al. Abate e avaliação de carcaças em ovinos. 1ª ed. Belo Horizonte: INCT, 2010. (Série Técnica: Genética).