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Tropical Animal Health and Production

, Volume 50, Issue 1, pp 143–148 | Cite as

Sorghum silage supplemented with crambe meal improves dry matter intake and milk production in crossbred Holstein cows

  • Saulo Alberto do Carmo Araújo
  • Guilherme Pires Bicalho
  • Norberto da Silva Rocha
  • Cláudia Braga Pereira BentoEmail author
  • Marluci Olício Ortêncio
Regular Articles
  • 196 Downloads

Abstract

We studied the feed intake and milk production of Holstein × Zebu crossbred cows fed sorghum silage diets and concentrates, with and without the addition of crambe meal. Using a change-over design for a total of 120 days, eight cows were fed two diets (concentrates + silages with and without crambe meal) in four 30-day periods, with four replications (animals). The crambe meal diet increased (P < 0.05) the dry matter intake (DMI), crude protein intake (CPI), and non-fibrous carbohydrates intake (NFCI) as well as milk production (4.3%). No difference was noted (P > 0.05) for the milk composition between the treatments. Crambe meal as an additive in sorghum silage (100 g/kg in natural matter) showed a great potential for introduction in dairy farming as it substantially increases CP intake, does not reduce food intake, raises animal productivity, and does not affect milk composition.

Keywords

Dairy cattle Silage consumption Crambe abyssinica Milk quality By-products 

Notes

Funding information

This research was supported by the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq; Brasília, Brazil), the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES; Brasília, Brazil), and the Fundação de Amparo à Pesquisa do Estado de Minas Gerais (FAPEMIG; Belo Horizonte, Brazil).

Compliance with ethical standards

Competing interests

The authors declare that they have no competing interests.

References

  1. Anderson, V.L., Slanger, W.D., Boyles, S.L. and Berg, P.T. 1993. Crambe meal is equivalent to soybean meal for backgrounding and finishing beef steers. Journal of animal science, 71(10), 2608–2613.CrossRefGoogle Scholar
  2. Broderick, G.A., Grabber, J.H., Muck, R.E. and Hymes-Fecht, U.C. 2017. Replacing alfalfa silage with tannin-containing birdsfoot trefoil silage in total mixed rations for lactating dairy cows. Journal of Dairy Science, 100(5), 3548–3562.CrossRefGoogle Scholar
  3. Calsamiglia, S., Ferret, A., Reynolds, C.K., Kristensen, N.B. and van Vuuren, A.M. 2010. Strategies for optimizing nitrogen use by ruminants. Animal, 4(7), 1184–1196.CrossRefGoogle Scholar
  4. Cappelle, E.R., Valadares Filho, S.C., Silva, J.F.C. and Cecon, P.R. 2001. Estimativas do valor energético a partir de características químicas e bromatológicas dos alimentos. Revista Brasileira de Zootecnia, 30(6), 1837–1856.CrossRefGoogle Scholar
  5. Caton, J.S., Burke, V.I., Anderson, V.L., Burgwald, L.A., Norton, P.L. and Olson, K.C. 1994. Influence of crambe meal as a protein source on intake, site of digestion, ruminal fermentation, and microbial efficiency in beef steers fed grass hay. Journal of animal science, 72(12), 3238–3245.CrossRefGoogle Scholar
  6. Cochran, W.G., Autrey, K.M. and Cannon, C.Y. 1941. A Double Change-Over Design for Dairy Cattle Feeding Experiments. Journal of Dairy Science, 24(11), 937–951.CrossRefGoogle Scholar
  7. Curran, J., Delaby, L., Kennedy, E., Murphy, J.P., Boland, T.M. and O’Donovan, M. 2010. Sward characteristics, grass dry matter intake and milk production performance are affected by pre-grazing herbage mass and pasture allowance. Livestock Science, 127(2–3), 144–154.CrossRefGoogle Scholar
  8. Ítavo, L.C.V., Soares, C.M., Ítavo, C.C.B.F., Dias, A.M., Petit, H.V., Leal, E.S., Souza, A.D.V. 2015. Calorimetry, chemical composition and in vitro digestibility of oilseeds. Food Chemistry, 185, 219–225CrossRefGoogle Scholar
  9. Ítavo, L.C.V., Souza, A.D.V., Fávaro, S.P., Ítavo, C.C.B.F., Petit, H.V., Dias, A.M., Morais, M.G., Coelho, R.G., Reis, F.A., Costa, J.A.A. and Roscoe, R. 2016. Intake, digestibility, performance, carcass characteristics and meat quality of lambs fed different levels of crambe meal in the diet. Animal Feed Science and Technology, 216, 40–48.CrossRefGoogle Scholar
  10. Kuss, V.V., Kuss, A.V., Rosa, R.G., Aranda, D.A.G. and Cruz, Y.R. 2015. Potential of biodiesel production from palm oil at Brazilian Amazon. Renewable and Sustainable Energy Reviews, 50, 1013–1020.CrossRefGoogle Scholar
  11. Liu, Y.G., Steg, A. and Hindle, V.A. 1994. Rumen degradation and intestinal digestion of crambe and other oilseed by-products in dairy cows. Animal Feed Science and Technology, 45(3–4), 397–409.CrossRefGoogle Scholar
  12. Meyer, U., Schwabe, A., Dänicke, S. and Flachowsky, G. 2010. Effects of by-products from biofuel production on the performance of growing fattening bulls. Animal Feed Science and Technology, 161(3–4), 132–139.CrossRefGoogle Scholar
  13. Nascimento, W.G., Prado, I.N., Jobim, C.C., Emile, J.C., Surault, F. and Huyghe, C. 2008. Valor alimentício das silagens de milho e de sorgo e sua influência no desempenho de vacas leiteiras. Revista Brasileira de Zootecnia, 37(5), 896–904.CrossRefGoogle Scholar
  14. Neto, S.G., Oliveira, R.L., Lima, F.H.S., Medeiros, A.N., Bezerra, L.R., Viégas, J., Nascimento, N.G. and de Freitas Neto, M.D. 2015. Milk production, intake, digestion, blood parameters, and ingestive behavior of cows supplemented with by-products from the biodiesel industry. Tropical Animal Health and Production, 47(1), 191–200.CrossRefGoogle Scholar
  15. NRC, 2001. Nutrient requirements of dairy cattle, 7th rev ed (National Academy Press: Washington, DC).Google Scholar
  16. Pereira, M.L.A., Valadares Filho, S.C., Valadares, R.F.D., Campos, J.M.S., Leão, M.I., Pereira, C.A.R., Silva, P.A. and Mendonça, S.S. 2005. Consumo, digestibilidade aparente total, produção e composição do leite em vacas no terço médio da lactação alimentadas com níveis crescentes de proteína bruta no concentrado. Revista Brasileira de Zootecnia, 34(3), 1040–1050.CrossRefGoogle Scholar
  17. Perry, T.W., Kwolek, W.F., Tookey, H.L., Princen, L.H., Beeson, W.M. and Mohler, M.T., 1979. Crambe Meal as a Source of Supplemental Protein for Growing-Finishing Beef Cattle. Journal of Animal Science, 48, 758–763.CrossRefGoogle Scholar
  18. SAS Institute, 2004. SAS/STAT 9.1 User’s Guide.Google Scholar
  19. Silva, D.J. and Queiroz, A.C., 2006. Análise dos alimentos (Métodos químicos e biológicos), Thirth edition. Uiversidade Federal de Viçosa: Viçosa, MG.Google Scholar
  20. Sniffen, C.J., O’Connor, J.D., Van Soest, P.J., Fox, D.G. and Russell, J. 1992. A net carbohydrate and protein system for evaluating cattle diets: I. Ruminal fermentation. Journal of Animal Science, 70(11), 3551–3561.CrossRefGoogle Scholar
  21. Van Soest, P.J. 1994. Nutritional Ecology of the Ruminant. Second edition. Cornell University Press: Ithaca, New York.Google Scholar
  22. Wanderley, W.L., Ferreira, M.D.A., Andrade, D.K.B., Véras, A.S.C., Farias, I., Lima, L.E. and Dias, A.M.D. 2002. Palma forrageira (Opuntia ficus indica Mill) em substituição à silagem de sorgo (Sorghum bicolor (L.) Moench ) na alimentação de vacas leiteiras. Revista Brasileira de Zootecnia, 31(1), 273–281.CrossRefGoogle Scholar
  23. Weiss, W.P. 1999. Energy prediction equations for ruminant feeds. In: Proceedings of Cornell Nutrition Conference for Feed Manufacturers, 176–185 (Ithaca, New York).Google Scholar
  24. Weiss, B. 2015. Optimizing and evaluating dry matter intake of dairy cows. Advances in Dairy Technology, 27, 189–200.Google Scholar
  25. Zanetti, F., Scordia, D., Vamerali, T., Copani, V., Dal Cortivo, C. and Mosca, G. 2016. Crambe abyssinica a non-food crop with potential for the Mediterranean climate: Insights on productive performances and root growth. Industrial Crops and Products, 90, 152–160.CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media B.V. 2017

Authors and Affiliations

  • Saulo Alberto do Carmo Araújo
    • 1
  • Guilherme Pires Bicalho
    • 1
  • Norberto da Silva Rocha
    • 1
  • Cláudia Braga Pereira Bento
    • 1
    Email author
  • Marluci Olício Ortêncio
    • 1
  1. 1.Departamento de ZootecniaUniversidade Federal dos Vales do Jequitinhonha e Mucuri (UFVJM)UnaíBrazil

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