Desempenho de produção de cordeiros recém-nascidos rejeitados alimentados com diferentes concentrações de soro de leite no Peru

Autores

DOI:

https://doi.org/10.5965/223811712322024231%20

Palavras-chave:

cordeiros rejeitados, inclusão de soro de leite, SAIS Pachacutec, dietas em cordeiros, leite de vaca

Resumo

O efeito da inclusão de soro de leite na dieta de cordeiros fêmeas e machos em crescimento foi avaliado no SAIS Pachacutec - Peru. Foram selecionados 80 cordeiros rejeitados pela mãe da raça Corriedale. Cada tratamento foi distribuído aleatoriamente em quatro grupos n=20 (10 fêmeas e 10 machos) e cada grupo foi distribuído em quatro tratamentos: T0 (0% de soro de leite); T1 (20% de soro de leite); T2 (40% de soro de leite) e T3 (60% de soro de leite), que foram adicionados à ração básica (leite fresco de vaca). Os componentes nutricionais da dieta foram avaliados e as tabelas do NRC foram consideradas para fornecer a quantidade de leite de acordo com seu desenvolvimento, crescimento e peso corporal. Foi realizado um período de adaptação de cinco dias com a ração e 40 dias de teste. Foram cadastrados os pesos iniciais (kg), os pesos finais e o ganho de peso (kg) e o ganho de peso diário (g). Os resultados mostraram que não houve diferenças (p>0,05) para os pesos iniciais. No entanto, os pesos finais e o ganho de peso diário apresentaram diferenças significativas (p<0,05) entre os tratamentos e os gêneros. T0 e T1 com gênero machos apresentaram médias mais altas para o peso final (6,247 ± 0,03 kg) e (6,244 ± 0,03 kg), respectivamente, bem como para o ganho de peso diário (77,7 ± 0,67 g) e (77,7 ± 0,6 g), respectivamente. Os resultados sugerem que a dieta com 20% de soro de leite e 80% de leite de vaca fresco melhorou o crescimento e o desenvolvimento de cordeiros rejeitados.

Downloads

Não há dados estatísticos.

Referências

ABEBE A. 2020. Effect of feeding regime on skin and hide characteristics of f1 crossbreed sheep in the Ethiopia highlands. International Journal of Agricultural Extension 8: 17-25.

AYALA C. 2018. Growth and development of domestic mammals. Revista de Investigación e Innovación Agropecuaria y de Recursos Naturales 5: 34-42.

BEHREM S. 2021. Effects of Environmental Factors on the Growth Traits of Akkaraman Sheep in Çankırı Province. Livestock Studies 61: 22-27.

CARHUAS JN et al. 2023. Inclusion of whey in the diet of fattening rams. Revista de Investigaciones Veterinarias del Peru 34: e25132-e25132.

DE LIMA RN et al. 2012. Performance of calves fed cheese whey in combination with colostrum. Pesquisa Agropecuária Brasileira 47: 1174-1180.

EL-SHEWY AA. 2016. Whey as a feed ingredient for lactating cattle. Science International 4: 80-85.

ESECELI H et al. 2021. Effect of Whey Protein Enriched Water on Performance and in vivo Carcass Measurements in Fattening Merino Lambs. Alinteri Journal of Agricultural Science 36: 61-65.

FERREIRA HS et al. 2010. Chemical composition and efficacy of multimix as a dietary supplement: A literature review. Ciencia e Saude Coletiva 15: 3207

FONTES FAPV et al. 2006. Performance of calves fed liquid diets based on whole milk or whey. Arquivo Brasileiro de Medicina Veterinaria e Zootecnia 52: 212–2019.

GAVIDIA MEC & ARMAZA RRP. 2016. Effect of using liquid whey, with or without the addition of quaternary ammonium, as a substitute for drinking water on the productive performance of laying hens. Anales Científicos 77: 29.

GONZALEZ-GARDUÑO R et al. 2011. Weight gain of sheep fed Taiwan grass (Pennisetum purpureum) supplemented with various protein sources. Avances en Investigaciones Agropecuarias 15: 3-20.

GONZALEZ-TORRES I et al. 2021. Influence of liquid feeding with milk whey on “chorizo gallego” fatty acid profile. ITEA Informacion Tecnica Economica Agraria 117: 19-31.

GUZELER N et al. 2023. Effect of different production methods on quality parameters of Hatay Künefe cheese. Journal of Dairy Research 90: 200–204.

HAMADA T et al. 1976. Factors Influencing Growth of Rumen, Liver, and Other Organs in Kids Weaned from Milk Replacers to Solid Foods. Journal of Dairy Science 59: 1110-1118.

HINOJOSA JÁ et al. 2018. Pre- and post-weaning growth of Pelibuey lambs in warm humid climate. Nova Scientia 10: 328–351.

HURTADO AD. 2020. Agrarian reform and communal processes: the communities of SAIS Cahuide and Túpac Amaru in the central highlands of Peru. Revista del Instituto Riva-Aguero 5: 299–337.

JENNESS R. 1986. Lactational Performance of Various Mammalian Species. Journal of Dairy Science 69: 869-885.

KASSAMBARA A & MUNDT F. 2020. factoextra: Extract and Visualize the Results of Multivariate Data Analyses. Package Version 1.0.7. R package version 1: 1-17.

KENDRICK KM. 2011. Oxytocin regulation of sheep social and maternal behavior. In: Oxytocin, Vasopressin, and Related Peptides in the Regulation of Behavior 1.ed. New York: Cambridge.

KIM JH et al. 2016. Effects of wheypowder supplementation on dry-agedmeat quality. Korean J Food Sci An 36:397-404.

KUMAR D et al. 2021. Milk replacer and linseed supplementation promotes puberty and semen quality in growing male lambs. Small Ruminant Research 202: 106457.

LI C et al. 2022. The functional development of the rumen is influenced by weaning and associated with ruminal microbiota in lambs. Animal Biotechnology 33: 612–628.

LI H et al. 2020. Rumen Microbiome and Metabolome of Tibetan Sheep (Ovis aries) Reflect Animal Age and Nutritional Requirement. Frontiers in Veterinary Science 7: article 609.

LUPO CR et al. 2019. Viability of the use of bovine milk whey at lamb finishing: performance, carcass, and meat parameters. Journal of Applied Animal Research 47: 449-453.

MCMANUS CM et al. 2014. Effect of supplementary milk feeding on growth and survival of santa Inês lambs. Ciencia Animal Brasileira 15: 451-457.

MORIISHI T et al. 2020. Osteocalcin is necessary for the alignment of apatite crystallites, but not glucose metabolism, testosterone synthesis, or muscle mass. PLOS Genetics 16: e1008586.

MUÑOZ-OSORIO GA et al. 2015. Factors influencing some productive variables in lambs finished in elevated pens with slatted floor. Nova Scientia 7: 285-296.

NOVOA M et al. 2022. Relationship among Sex, Skin Color, and Production Parameters of Broiler in Pectoral Myopathies. Animals 12: 1617.

NRC. 2016. Nutrient Requirements of Beef Cattle, 8.ed. Revised Edition. DC: The National Academies Press.

PAIM T DO P et al. 2013. Performance, survivability and carcass traits of crossbred lambs from five paternal breeds with local hair breed Santa Inês ewes. Small Ruminant Research 112: 28-34.

PANESAR PS et al. 2007. Bioutilisation of whey for lactic acid production. Food Chemistry 105: 1-14.

PAYANO IU et al. 2021. Immunocastration with vaccination against gonadotropinreleasing factor (GnRF) on the production performance of rams. Spermova 10: 88-93.

R CORE TEAM. 2022. R Core Team 2021 R: A language and environment for statistical computing. R foundation for statistical computing. Available at https://www.R-project.org/ Access on: Sept. 10, 2023.

RAMIREZ FE et al. 2022. Whey water and its influence on weight gain in guinea pigs (Caviaporcellus). Alfa Revista de Investigación en Ciencias Agronómicas y Veterinaria 6: 557-566.

ROSALES C et al. 2014. Use of liquid whey in the feeding of guinea pigs (Caviaporcellus) in the growing and fattening stage. Maskana 5: 87-95.

SENAMHI - Perú. 2022. SENAMHI (National Service of Meteorology and Hydrology). Ministry of Environment. Available at: https://www.senamhi.gob.pe/?p=estaciones Access on: Sept. 10, 2023.

SILVA F et al. 2018. Performanceand carcass characteristics of lambs feda solution of cheese whey during feedlotand pre-slaughter lairage. Revista Brasileira de Zootecnia 47: e20170026.

SMITHERS GW. 2008. Whey and whey proteins-From “gutter-to-gold”. International dairy jornal 18: 695-704.

TAYLOR S et al. 2023. Endogenous testosterone concentrations and muscle mass, strength and performance in women, a systematic review of observational studies. Clinical Endocrinology 98: 587–602.

TURNER TL et al. 2017. Short communication: Conversion of lactose and whey into lactic acid by engineered yeast. Journal of Dairy Science 100: 124-128.

VALENZUELA H et al. 2019. Influence of Andean fox (Pseudalopes Culpaeus) activity on sheep breeding in a livestock enterprise in central Peru. Ciencia en Desarrollo 21: 15-22.

VIEIRA E SILVA F et al. 2018. Performance and carcass characteristics of lambs fed a solution of cheese whey during feedlot and pre-slaughter lairage. Revista Brasileira de Zootecnia 47.

WANG L et al. 2019. Dynamics and stabilization of the rumen microbiome in yearling Tibetan sheep. Scientific Reports 9: 19620.

Downloads

Publicado

2024-09-13

Como Citar

CARHUAS, Jordan Ninahuanca; CAPCHA, Kleydy Beraun; GARCIA-OLARTE, Edgar; EULOGIO , Carlos Quispe. Desempenho de produção de cordeiros recém-nascidos rejeitados alimentados com diferentes concentrações de soro de leite no Peru. Revista de Ciências Agroveterinárias, Lages, v. 23, n. 2, p. 231–239, 2024. DOI: 10.5965/223811712322024231 . Disponível em: https://periodicos.udesc.br/index.php/agroveterinaria/article/view/24329. Acesso em: 23 nov. 2024.

Edição

Seção

Artigo de Pesquisa - Ciência de Animais e Produtos Derivados