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RESEARCH ARTICLE
Contents Vol 60(8)

Different combinations of sodium monensin and virginiamycin during feedlot finishing of Nellore cattle

A. L. N. Rigueiro B , M. C. S. Pereira A , M. M. Squizatti A , M. M. Ferreira B , S. C. Dondé A , F. P. Luiz A , A. M. Silvestre B , L. R. Muller A , C. P. Garcia A , A. P. D. Bueno A , L. V. Toledo A , D. D. Estevam A , C. L. Martins A , M. D. B. Arrigoni A and D. D. Millen https://orcid.org/0000-0002-1253-7310 B C
+ Author Affiliations
- Author Affiliations

A São Paulo State University (UNESP), School of Veterinary Medicine and Animal Science, Botucatu, São Paulo, 18618-000, Brazil.

B São Paulo State University (UNESP), College of Technology and Agricultural Sciences, Dracena, São Paulo, 17900-000, Brazil.

C Corresponding author. Email: danilo.millen@unesp.br

Animal Production Science 60(8) 1061-1072 https://doi.org/10.1071/AN18657
Submitted: 18 October 2018  Accepted: 20 October 2019   Published: 27 February 2020

Abstract

Context: The use of two feed additives, to maximise rumen fermentation, in finishing diets offered to feedlot cattle may positively impact performance.

Aims: This study, conducted at the São Paulo State University feedlot, Botucatu campus, Brazil, was designed to evaluate the effects of the combined use of monensin (MON; 30 mg/kg of dry matter; (DM)) and virginiamycin (VM; 25 mg/kg of DM) in high-concentrate diets during the adaptation and finishing periods on feedlot performance, carcass traits, feeding behaviour, blood gas profile, rumen morphometrics and apparent total tract digestibility of nutrients of Nellore cattle.

Methods: The experiment was designed as a completely randomised block, replicated six times (3 bulls/pen), in which 72 20 months of age yearling Nellore bulls (388.0 ± 31.1 kg) were fed in 24 pens for 90 days according to the treatments: (1) MON during the entire feeding period (T1), (2) MON + VM during adaptation and only VM during the finishing period (T2), (3) MON + VM during the entire feeding period (T3), and (4) VM during the adaptation and MON + VM during the finishing period (T4). The adaptation program consisted of ad libitum feeding of three diets over the adaptation period of 19 days with concentrate level increasing from 69% to 84% of diet DM.

Key results: Overall, bulls fed on T2 had a greater DM intake (P < 0.01), final bodyweight (P = 0.04), average daily gain (P = 0.03), hot carcass weight (P < 0.01), final Longissimus muscle area (P = 0.05), Longissimus muscle area daily gain (P = 0.01), improved carcass G:F (P < 0.01) and increased dressing percentage (P < 0.01). Similarly, bulls fed on T2 were faster to consume 1 kg of either DM (P < 0.01) or neutral detergent fibre (P < 0.01) after 60 days on feed. Furthermore, bulls fed on T2 presented a greater (P = 0.05) cell proliferation index in the rumen papillae.

Conclusions: According to the results, Nellore yearling bulls should be fed high-concentrate diets containing MON and VM during adaptation, and only VM during the finishing period to improve overall feedlot performance.

Implications: The use of both MON and VM proved to be helpful only during the adaptation period.

Additional keywords: antibiotic, ionophore, papillae, rumen, starch.


References

Association of Official Analytical Chemists (1997) ‘Official Methods of Analysis of AOAC.’ 16th ed. (Association of Official Analytical Chemists: Arlington, VA)

Barducci RS, Sarti LMN, Millen DD, Putarov TC, Franzói MCS, Ribeiro FA, Perdigão A, Estevam DD, Carrara TVB, Rigueiro ALN, Watanabe DHM, Cursino LL, Martins CL, Pereira MCS, Arrigoni MDB (2019) Restricted versus step-up dietary adaptation in Nellore bulls: Effects over periods of 9 and 14 days on feedlot performance, feeding behavior and rumen morphometrics. Animal Feed Science and Technology 247, 222–233.

Bateman JV (1970) ‘Nutricion Animal. Manual de Métodos Analíticos.’ (Herrero Hermanos Sucesores S.A., Cuidad de México, México)

Benatti JMBB, Alves Neto JA, Oliveira IM, Resende FD, Siqueira GR (2017) Effect of increasing monensin sodium levels in diets with virginiamycin on the finishing of Nellore cattle. Animal Science Journal 88, 1709–1714.
Effect of increasing monensin sodium levels in diets with virginiamycin on the finishing of Nellore cattle.Crossref | GoogleScholarGoogle Scholar |

Bigham ML, McManus WR (1975) Whole wheat grain feeding of lambs. Effects of roughage and wheat grain mixtures. Australian Journal of Agricultural Research 26, 1053–1062.
Whole wheat grain feeding of lambs. Effects of roughage and wheat grain mixtures.Crossref | GoogleScholarGoogle Scholar |

Brink DR, Lowry SR, Stock RA, Parrott JC (1990) Severity of liver abscesses and efficiency of feed utilization of feedlot cattle. Journal of Animal Science 68, 1201–1207.
Severity of liver abscesses and efficiency of feed utilization of feedlot cattle.Crossref | GoogleScholarGoogle Scholar | 2365638PubMed |

Brossard L, Martin C, Michalet-Doreau B (2003) Ruminal fermentative parameters and blood acido-basic balance changes during the onset and recovery of induced latent acidosis in sheep. Animal Research 52, 513–530.
Ruminal fermentative parameters and blood acido-basic balance changes during the onset and recovery of induced latent acidosis in sheep.Crossref | GoogleScholarGoogle Scholar |

Cocito C (1979) Antibiotics of the virginiamycin family, inhibitors which contain synergistic components. Microbiological Reviews 43, 145–192.

Coe ML, Nagaraja TG, Sun YD, Wallace N, Towne EG, Kemp KE, Hutcheson JP (1999) Effect of virginiamycin on ruminal fermentation in cattle during adaptation to a high concentrate diet and during an induced acidosis. Journal of Animal Science 77, 2259–2268.
Effect of virginiamycin on ruminal fermentation in cattle during adaptation to a high concentrate diet and during an induced acidosis.Crossref | GoogleScholarGoogle Scholar | 10462007PubMed |

Costa SF, Pereira MN, Melo LQ, Resende Júnior JC, Chaves ML (2008) Alterações morfológicas induzidas por butirato, propionato e lactato sobre a mucosa ruminal e a epiderme de bezerros-I Aspectos histológicos. Arquivo Brasileiro de Medicina Veterinária e Zootecnia 60, 1–9.
Alterações morfológicas induzidas por butirato, propionato e lactato sobre a mucosa ruminal e a epiderme de bezerros-I Aspectos histológicos.Crossref | GoogleScholarGoogle Scholar |

Davis MP, Freetly HC, Kuehn LA, Wells JE (2014) Influence of dry matter intake, dry matter digestibility, and feeding behavior on body weight gain of beef steers. Journal of Animal Science 92, 3018–3025.
Influence of dry matter intake, dry matter digestibility, and feeding behavior on body weight gain of beef steers.Crossref | GoogleScholarGoogle Scholar | 24802034PubMed |

Duffield TF, Merrill JK, Bagg RN (2012) Meta-analysis of the effects of monensin in beef cattle on feed efficiency, body weight gain, and dry matter intake. Journal of Animal Science 90, 4583–4592.
Meta-analysis of the effects of monensin in beef cattle on feed efficiency, body weight gain, and dry matter intake.Crossref | GoogleScholarGoogle Scholar | 22859759PubMed |

Erasmus LJ, Muya C, Erasmus S, Coertze RF, Catton DG (2008) Effect of virginiamycin and monensin supplementation on performance of multiparous Holstein cows. Livestock Science 119, 107–115.
Effect of virginiamycin and monensin supplementation on performance of multiparous Holstein cows.Crossref | GoogleScholarGoogle Scholar |

Fox DG, Tedeschi LO, Tylutki TP, Russell JB, Van Amburgh ME, Chase LE, Pella AN, Overton TR (2004) The Cornell Net Carbohydrate and Protein System model for evaluating herd nutrition and nutrient excretion. Animal Feed Science and Technology 112, 29–78.
The Cornell Net Carbohydrate and Protein System model for evaluating herd nutrition and nutrient excretion.Crossref | GoogleScholarGoogle Scholar |

Godfrey SI, Nagaraja TG, Winslow SW, Rowe JB (1995) Rumen microbial adaptation to long-term feeding of virginiamycin in sheep fed barley and virginiamycin as a supplement. Australian Journal of Agricultural Research 46, 1149–1158.
Rumen microbial adaptation to long-term feeding of virginiamycin in sheep fed barley and virginiamycin as a supplement.Crossref | GoogleScholarGoogle Scholar |

Goodrich RD, Garrett JE, Gast DR, Kirick MA, Larson DA, Meiske JC (1984) Influence of monensin on the performance of cattle. Journal of Animal Science 58, 1484–1498.
Influence of monensin on the performance of cattle.Crossref | GoogleScholarGoogle Scholar | 6378865PubMed |

Graner CAF (1972) Chromium determination by colorimetric method of σ-difenilcarbazide. PhD Diss. São Paulo State University, São Paulo, Brazil.

Haney M, Hoehn M (1967) Monensin, a new biologically active compound. I: Discovery and isolation. The Journal of Antimicrobial Chemotherapy 7, 349–352.

Kononoff PJ, Heinrichs AJ, Buckmaster DR (2003) Modification of the Penn State forage and total mixed ration particle separator and the effects of moisture content on its measurements. Journal of Dairy Science 86, 1858–1863.

Hendrix DL (1993) Rapid extraction and analyses of nonstructural carbohydrates in plant tissues. Crop Science 33, 1306–1311.
Rapid extraction and analyses of nonstructural carbohydrates in plant tissues.Crossref | GoogleScholarGoogle Scholar |

Karapinar T, Kaynar O, Hayirli A, Kom M (2013) Evaluation of 4 point-of-care units for the determination of blood l–lactate concentration in cattle. Journal of Veterinary Internal Medicine 27, 1596–1603.
Evaluation of 4 point-of-care units for the determination of blood l–lactate concentration in cattle.Crossref | GoogleScholarGoogle Scholar | 24118259PubMed |

Leeuw KJ, Meissner HH, Henning PH, Siebrits FK, Apajalahti JHA, Kettunen A (2016) Effects of virginiamycin and monensin administered alone or together with Megasphaera elsdenii strain NCIMB41125 on in vitro production of lactate and VFA and the effects of monensin and M. elsdenii strain NCIMB 41125 on health and performance of feedlot steers. Livestock Science 183, 54–62.
Effects of virginiamycin and monensin administered alone or together with Megasphaera elsdenii strain NCIMB41125 on in vitro production of lactate and VFA and the effects of monensin and M. elsdenii strain NCIMB 41125 on health and performance of feedlot steers.Crossref | GoogleScholarGoogle Scholar |

Lemos BJM, Castro FGF, Santos LS, Mendonça BPC, Couto VRM, Fernandes JJR (2016) Monensin, virginiamycin, and flavomycin in a no-roughage finishing diet fed to zebu cattle. Journal of Animal Science 94, 4307–4314.
Monensin, virginiamycin, and flavomycin in a no-roughage finishing diet fed to zebu cattle.Crossref | GoogleScholarGoogle Scholar |

Lofgreen GP, Garrett WN (1968) A system for expressing net energy requirements and feed values for growing and finishing beef cattle. Journal of Animal Science 27, 793–806.
A system for expressing net energy requirements and feed values for growing and finishing beef cattle.Crossref | GoogleScholarGoogle Scholar |

Montano MF, Manriquez OM, Salinas-Chavira J, Torrentera N, Zinn RA (2015) Effects of monensin and virginiamycin supplementation in finishing diets with distiller dried grains plus solubles on growth performance and digestive function of steers. Journal of Applied Animal Research 43, 417–425.
Effects of monensin and virginiamycin supplementation in finishing diets with distiller dried grains plus solubles on growth performance and digestive function of steers.Crossref | GoogleScholarGoogle Scholar |

Nagaraja TG, Taylor MB (1987) Susceptibility and resistance of ruminal bacteria to antimicrobial feed additives. Applied and Environmental Microbiology 53, 1620–1625.

Nagaraja TG, Titgemeyer EC (2007) Ruminal acidosis in beef cattle: the current microbiological and nutritional outlook. Journal of Dairy Science 90, E17–E38.
Ruminal acidosis in beef cattle: the current microbiological and nutritional outlook.Crossref | GoogleScholarGoogle Scholar | 17517750PubMed |

Nagaraja TG, Taylor MB, Harmon DL, Boyer JE (1987) In vitro acid inhibition and alterations in volatile fatty acid production by antimicrobial feed additives. Journal of Animal Science 65, 1064–1076.
In vitro acid inhibition and alterations in volatile fatty acid production by antimicrobial feed additives.Crossref | GoogleScholarGoogle Scholar | 3667452PubMed |

Newbold CJ, Wallace RJ (1988) Effects of the ionophores monensin and tetronasin on simulated development of ruminal lactic acidosis in vitro. Applied and Environmental Microbiology 54, 2981–2985.

NRC (National Research Council) (1984) ‘Nutrient requirements of beef cattle.’ 6th edn. (National Academy Press: Washington, D.C.)

Nuñez AJC, Caetano M, Berndt A, Demarchi JJAA, Leme PR, Lanna DPD (2013) Combined use of ionophore and virginiamycin for finishing Nellore steers fed high concentrate diets. Scientia Agrícola 70, 229–236.
Combined use of ionophore and virginiamycin for finishing Nellore steers fed high concentrate diets.Crossref | GoogleScholarGoogle Scholar |

Odongo NE, AlZahal O, Lindinger MI, Duffield TF, Valdes EV, Terrell SP, McBride BW (2006) Effects of mild heat stress and grain challenge on acid-base balance and rumen tissue histology in lambs. Journal of Animal Science 84, 447–455.
Effects of mild heat stress and grain challenge on acid-base balance and rumen tissue histology in lambs.Crossref | GoogleScholarGoogle Scholar | 16424273PubMed |

Oliveira CA, Millen DD (2014) Survey of the nutritional recommendations and management practices adopted by feedlot cattle nutritionists in Brazil. Animal Feed Science and Technology 197, 64–75.
Survey of the nutritional recommendations and management practices adopted by feedlot cattle nutritionists in Brazil.Crossref | GoogleScholarGoogle Scholar |

Pereira JRA, Rossi P, Jr (1995) ‘Practical Manual of Feedstuffs Nutritional Evaluation.’ 1st edn. (FEALQ: Piracicaba, São Paulo, Brazil)

Pereira FTV, Braga FC, Burioli KC, Kfoury JR, Oliveira LJ, Papa PC, Carvalho AF, Ambrósio CE, Bazer FW, Miglino MA (2010) Transplacental transfer of iron in the Water Buffalo (Bubalus bubalis): uteroferrin and erythrophagocytosis. Reproduction in Domestic Animals 45, 907–914.
Transplacental transfer of iron in the Water Buffalo (Bubalus bubalis): uteroferrin and erythrophagocytosis.Crossref | GoogleScholarGoogle Scholar |

Perkins TL, Green RD, Hamlin KE (1992) Evaluation of ultrasonic estimates of carcass fat thickness and longissimus muscle area in beef cattle. Journal of Animal Science 70, 1002–1010.
Evaluation of ultrasonic estimates of carcass fat thickness and longissimus muscle area in beef cattle.Crossref | GoogleScholarGoogle Scholar | 1582927PubMed |

Resende Júnior JC, Alonso LS, Pereira MN (2006) Effect of the feeding pattern on rumen wall morphology of cows and sheep. Brazilian Journal of Veterinary Research and Animal Science 43, 526–536.

Robles V, González LA, Ferret A, Manteca X, Calsamiglia S (2007) Effects of feeding frequency on intake, ruminal fermentation, and feeding behavior in heifers fed high-concentrate diets. Journal of Animal Science 85, 2538–2547.
Effects of feeding frequency on intake, ruminal fermentation, and feeding behavior in heifers fed high-concentrate diets.Crossref | GoogleScholarGoogle Scholar | 17609471PubMed |

Rogers JA, Branine ME, Millar CR, Wray MI, Bartle SJ, Preston RL, Gill DR, Pritchard RH, Stilborn RP, Bechtol DT (1995) Effects of dietary virginiamycin on performance and liver abscess incidence in feedlot cattle. Journal of Animal Science 73, 9–20.
Effects of dietary virginiamycin on performance and liver abscess incidence in feedlot cattle.Crossref | GoogleScholarGoogle Scholar | 7601759PubMed |

Salinas-Chavira J, Lenin J, Ponce E, Sanchez U, Torrentera N, Zinn RA (2009) Comparative effects of virginiamycin supplementation on characteristics of growth-performance, dietary energetics, and digestion of calf-fed Holstein steers. Journal of Animal Science 87, 4101–4108.
Comparative effects of virginiamycin supplementation on characteristics of growth-performance, dietary energetics, and digestion of calf-fed Holstein steers.Crossref | GoogleScholarGoogle Scholar | 19749020PubMed |

Salinas-Chavira J, Barreras A, Plascencia A, Montano MF, Navarrete JD, Torrentera N, Zinn RA (2016) Influence of protein nutrition and virginiamycin supplementation on feedlot growth performance and digestive function of calf-fed Holstein steers. Journal of Animal Science 94, 4276–4286.
Influence of protein nutrition and virginiamycin supplementation on feedlot growth performance and digestive function of calf-fed Holstein steers.Crossref | GoogleScholarGoogle Scholar | 27898843PubMed |

Samuelson KL, Hubbert ME, Galyean ML, Löest CA (2016) Nutritional recommendations of feedlot consulting nutritionists: The 2015 New Mexico State and Texas Tech University survey. Journal of Animal Science 94, 2648–2663.
Nutritional recommendations of feedlot consulting nutritionists: The 2015 New Mexico State and Texas Tech University survey.Crossref | GoogleScholarGoogle Scholar | 27285940PubMed |

SAS Institute (2003) ‘SAS/STAT user’s guide. Release 9.1.’ (SAS Institute: Cary, NC).

Silva SL, Almeida R, Schwahofer D, Leme PR, Lanna DPD (2004) Effects of salinomycin and virginiamycin on performance and carcass traits of feedlot steers. Journal of Animal Science 82, 41–42.

Stock RA, Sindt MH, Parrott JC, Goedeken FK (1990) Effect of grain type, roughage level and monensin level on finishing cattle performance. Journal of Animal Science 68, 3441–3455.
Effect of grain type, roughage level and monensin level on finishing cattle performance.Crossref | GoogleScholarGoogle Scholar | 2174851PubMed |

Thorniley GR, Rowe JB, Cowcher PC, Boyce MD (1998) A single drench of virginiamycin to increase safety of feeding grain to sheep. Australian Journal of Agricultural Research 49, 899–906.
A single drench of virginiamycin to increase safety of feeding grain to sheep.Crossref | GoogleScholarGoogle Scholar |

Van Soest PJ, Robertson JB, Lewis BA (1991) Symposium: Carbohydrate methodology, metabolism, and nutritional implications in dairy cattle. Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. Journal of Dairy Science 74, 3583–3597.
Symposium: Carbohydrate methodology, metabolism, and nutritional implications in dairy cattle. Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition.Crossref | GoogleScholarGoogle Scholar | 1660498PubMed |

Zinn RA, Shen Y (1998) An evaluation of ruminally degradable intake protein and metabolizable amino acid requirements of feedlot calves. Journal of Animal Science 76, 1280–1289.
An evaluation of ruminally degradable intake protein and metabolizable amino acid requirements of feedlot calves.Crossref | GoogleScholarGoogle Scholar | 9621934PubMed |