Different sources of selenium added to whole corn grain diet in the finishing phase of Angus steers

Authors

DOI:

https://doi.org/10.33448/rsd-v9i8.4997

Keywords:

Feedlot; Meat quality; Selenomethionine.

Abstract

Selenium is an essential cofactor for antioxidant enzymes. Among the sources available on the market, sodium selenite (inorganic source) is the most used and studied; nevertheless, organic sources have been described as being more efficient. Against this background, the objective of the present study was to determine whether various selenium sources, both inorganic (sodium selenite) and organic (selenomethionine), in the whole grain feed for finishing Angus steers would affect performance as well as carcass and meat quality. For this purpose, 22 animals were selected and were divided as follows: sodium selenite group (SS = 11) and selenomethionine group (SM = 11). The feedlot period was 82 days, with 15 days of adaptation and a total of four weighings. We measured carcass weight, slaughter temperature, and pH, after 24 h carcass yield, cooling loss, pH, color, and subcutaneous fat thickness. Longissimus thoracis muscle samples were taken between 12th and 13th ribs of the left half carcass to measure muscle width and depth, rib-eye area, meat color and pH at 24 hours and 48 hours, in addition to other laboratory analyses, including tenderness, cooking losses, thiobarbituric acid reactive substances, and selenium concentration analysis. There were no differences between groups with respect to performance or carcass and meat quality, as well selenium concentration and freezing time. These findings suggest that both selenium sources can be used in whole grain feed for finishing Angus steers and that they have the same effects on performance and carcass and meat quality.

References

Almeida, J. N., Santos, G. R., Beteto, F. M., Medeiros, L. G., Oba, A., Shimokomaki, M., Soares, A. L. (2012). Dietary supplementation of chealated selenium and broiler chicken meat quality. Semina: Ciências Agrárias. 33: 3117-3122

Arboitte, M. Z., Brondani, I. L., Deschamps, F. C., Bertoldi, F. C., Filho, D. C. A. & Segabinazzi, L. R. (2011). Meat quality of the longissimus dorsi muscle of Aberdeen Angus steers of small and medium frame score, slaughtered at the same carcass finishing stage. Acta Scientiarum Animal Sciences. 33: 191-198.

Bakhshalinejad, R., Hassanabadi, A., & Swick, R. A. (2019). Dietary sources and levels of selenium supplements affect growth performance, carcass yield, meat quality and tissue selenium deposition in broilers. Animal Nutrition. 3: 256-263.

Bianchini, W., Silveira, A. C., Jorge, A. M., Arrigoni, M. B., Martins, C. L., Rodrigues, E., Hadlich, J. C. & Andrighetto, C. (2007). Effect of genetic group on carcass traits and fresh and aged beef tenderness from young cattle. Revista Brasileira de Zootecnia. 36: 2109-2117.

Bruce, H. L. (2004). A note on the suitability of an exponential equation to characterize pH decline corrected for muscle temperature in bovine muscle early post mortem. Meat Science. 66: 507-512.

Calvo, L., Segura, J., Toldrá, F., Flores, M., Rodriguez, A. I., López-Bote, C. J. & Rey, A. I. (2017). Meat quality, free fatty acid concentration, and oxidative stability of pork from animals fed diets containing different sources of selenium. Food Science and Technology International. 23: 716-728.

Costa, E. C., Restle, J., Brondani, I. L., Perrottoni, J., Faturi, C., Menezes, L. F. G. (2002). Carcass composition, meat quality and cholesterol content in the longissimus dorsi muscle of young red angus steers confined and slaughtered with different weights. Revista Brasileira de Zootecnia. 31: 417-428.

Cozzi, G., Prevedello, P., Stefani, A. L., Piron, A., Contiero, B., Lante, A., Gottardo, F. & Chevaux, E. (2011). Effect of dietary supplementation with different sources of selenium on growth response, selenium blood levels and meat quality of intensively finished Charolais Young bulls. Animal Science. 5: 1531-1538.

Davy, J., Forero, L. C., Tucker, T., Mayo, C., Drake, D., Maas, J., Oltjen, J. W. (2016). Efficacy of selenium supplementation methods in California yearling beef cattle and resulting effect on weight gain. California Agriculture. 70: 187-193.

Del Claro, G. R., Zanetti, M. A., Netto, A. S., Vilela, F. G., Melo, M. P., Correa, L. B., Freitas, J. E. (2013). The effects of copper and selenium supplementation in the diet of Brangus steers on performance and rumen fermentation. Arquivo Brasileiro de Medicina Veterinária e Zootecnia. 65: 255-261.

Gomide, L. A. M., Ramos, E. M., & Fontes, P. R. (2006). Tecnologia de abate e tipificação de carcaças. Viçosa: Editora UFV, 408p.

IAL - Instituto Adolfo Lutz. (2008). Métodos físico-químicos para análise de alimentos. São Paulo. 1020p.

Jentzsch, A. M., Bachmann, H., Furst, P., & Biesalski, H. K. (1996). Improved analysis of malondialdehyde in human body fluids. Free Radical Biology and Medicine. 20: 251-256.

Junior, A. F. M., Braga, A. P., Rodrigues, A. P. M. S., Sales, L. E. M. & Mesquita, H. C. (2011). Minerais: Importância de uso na dieta de ruminantes. ACSA- Agropecuária Científica no Semi-Árido. 7: 1-13.

Junior, D. M. L., Rangel, A. H. N., Urbano, S. A., & Moreno, G. M. B. (2013). Oxidação lipídica e qualidade da carne ovina. Acta Veterinária Brasílica. 7: 14-28.

Knapp, R. H., Terry, C. A., Savell, J. W., Cross, H. R., Mies, W. L. & Edwards, J. W. (1989). Characterization of cattle types to meet specific beef targets. Journal of Animal Science. 67: 2294-2308.

Kropf, D. H. (1980). Effects of retail display conditions on meat color. American Meat Science Association. 32: 15-32.

Latimori, N. J., Kloster, A. M., Garcia, P. T., Carduza, F. J., Grigioni, G., & Pensel, N. A. (2008). Diet and genotype effects on the quality index of beef produced in the Argentine Pampeana region. Meat Science. 79: 463-469.

Lawler, T. L., Taylor, J. B., Finley, J. W., & Caton, J. S. (2004). Effect of supranutritional and organically bond selenium on performance carcass characteristics, and selenium distribution in fishing beff steers. Journal of Animal Science. 82: 1488-1493.

Lima, L. G., Domingues, J. L. (2007). Uso do selênio na produção de bovinos. Revista Eletrônica Nutritime. 4: 453-465.

Li, J. L., Zhang, L., Yang, Z. Y., Zhang, Z. Y., Jiang, Y., Gao, F., & Zhou, G. H. (2018). Effects of different selenium sources on growth performance, antioxidant capacity and meat quality of local Chinese subei chikens. Biological Trace Element Research. 181: 340-346.

Lin, Y. H. (2014). Effects of dietary organic and inorganic selenium on the growth, selenium concentration and meat quality of juvenile grouper Epinephelus malabaricus. Aquaculture, 430: 114-119.

McDowell, L. R. (1999). Minerals for ruminants under grazing in tropical regions, emphasizing Brazil. University of Florida. 3 ed. 92p.

Mehdi, Y., Hornick, J. C., Clinquart, A., & Cabaraux, J. F. (2015). Meat composition and quality of young growing Belgian Blue bulls offered a fattening diet with selenium enriched cereals. Canadian Journal of Animal Science. 95: 465–473.

NRC. National Research Council. (2001). Subcommitte on Dairy Catle Nutrition. Nutrient Requirements of Dairy Catle. 7th ed. Washington: National Academy Press. 381p.

Owens, F. N., Secrist, D. S., Hill, W. J., & Gill, D. R. (1997). The effect of grain source and grain processing on performance of feedlot cattle: A review. Journal Animal Science. 75: 868–879.

Restle, J., Polli, V. A., & Senna, D. B. (1999). Efeito de grupo genético e heterose sobre a idade e peso à puberdade e sobre desempenho reprodutivo de novilhas de corte. Pesquisa Agropecuária Brasileira. 34: 701-707.

Pereira A. S. et al. (2018). Metodologia da pesquisa científica. [e-book]. Santa Maria. Ed. UAB/NTE/UFSM. Disponível em: https://repositorio.ufsm.br/bitstream/handle/1/15824/Lic_Computacao_Metodologia-Pesquisa-Cientifica.pdf?sequence=1.

Rossi, C. A. S., Compani, R., Baldi, G., Muraro, M., Marden, J. P., Rossi, R., Pastorelli, G., Corino, C., & Dell’Orto, V. (2017). Organic selenium supplementation improves growth parameters, immune and antioxidant status of newly received beef cattle. Journal of Animal and Feed Sciences, 26: 100-108.

Silva, J. S., Rodriguez, F. D., Trettel, M., Abal, R. T., Lima, C. G., Yoshikawa, C. Y. C. & Zanetti, M. A. (2019). Performance, carcass characteristics and meat quality of Nellore cattle supplemented with supranutritional doses of sodium selenite or selenium-enriched yeast. International Journal of Animal Bioscience. 17: 1-8.

Spears, J. W. (1996). Organic trace minerals in ruminant nutrition. Animal Feed Science and Technology. 58: 151-163.

Souza, A. A. A. (2008). Características físico-químicas e sensoriais da carne de bovinos Nelore (Bos taurus indicus) alimentados com diferentes fontes de lipídeos e de selênio. (Dissertação - Mestrado) Universidade de São Paulo: Pirassununga. 71p.

Vaz, F. N., Restle, J., Padua, J. T., Metz, P. A. M., Moletta, J. L., Fernandes, J. J. R. (2007). Qualidade da carcaça e da carne de novilhos abatidos com pesos similares, terminados em diferentes sistemas de alimentação. Ciência Animal Brasileira. 8: 31-40.

Vignola, G., Lambertini, L., Mazzone, G., Giammarco, M., Tassinari, M., Martelli, G. & Berdin, G. (2009). Effects of selenium source and level of supplementation on the performance and meat quality of lambs. Meat Science. 81: 678–685.

Wulf, D. M., O’Conner, S. F., Tatum, J. D. & Smith, G. C. (1997) Using objective measures of muscle color to predict beef Longissimus tenderness. Journal of Animal Science. 75: 684–692.

Zanetti, M. A., Resende, J. M. L., Schalch, F., & Miotto, C. M. (2000). Desempenho de novilhos consumindo suplemento mineral proteinado convencional ou com uréia. Revista Brasileira de Zootecnia. 29: 935 939.

Published

06/07/2020

How to Cite

SOLDÁ, N. M.; GLOMBOWSKY, P.; ROSSETO, L.; TOMASI, T.; SANTIN JUNIOR, I. A.; ZAMPAR, A.; SILVA, A. S. D.; CUCCO, D. de C. Different sources of selenium added to whole corn grain diet in the finishing phase of Angus steers. Research, Society and Development, [S. l.], v. 9, n. 8, p. e320984997, 2020. DOI: 10.33448/rsd-v9i8.4997. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/4997. Acesso em: 2 dec. 2024.

Issue

Section

Agrarian and Biological Sciences