Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
Shopping Cart: ( empty )
You are here: Home > Journals > AN > AN14394
RESEARCH ARTICLE
Contents Vol 54(10)

The effect of lipid sources on intake, rumen fermentation parameters and microbial protein synthesis in Nellore steers supplemented with glycerol

Arturo Samuel Gomez Insuasti A B , Yury Tatiana Granja Salcedo A , Pablo de Souza Castagnino A , Bruno Ramalho Vieira A , Euclides Braga Malheiros A and Telma T. Berchielli A
+ Author Affiliations
- Author Affiliations

A Departamento de Zootecnia, Faculdade de Ciências Agrárias e Veterinárias, Universidade Estadual Paulista/“Júlio de Mesquita Filho”, Via de Acesso Prof. Paulo Donato Castellane, s/n, 14884-900, Jaboticabal, São Paulo, Brazil.

B Corresponding author. Email: asgomezi@yahoo.com

Animal Production Science 54(10) 1871-1876 https://doi.org/10.1071/AN14394
Submitted: 14 March 2014  Accepted: 16 June 2014   Published: 19 August 2014

Abstract

The effects of glycerol with fat sources as a feed alternative were investigated in the ration for Nellore steers (Bos indicus). Eight cannulated steers at 30 months of age with initial bodyweight of 554 ± 36.0 kg were used in a double 4 by 4 Latin square design with four consecutive 16-day periods. Treatments were three different diets with lipid sources (soybean, soybean oil and calcium salts of fatty acids) and one diet control without lipid sources. All diets formulated contained 10% crude glycerol and 5% ether extract with a forage : concentrate ratio of 35 : 65; corn silage was used as forage. The ruminal liquid was sampled for 24 h and ruminal fermentations were monitored by measuring pH, concentrations of ammonia nitrogenand volatile fatty acids in rumen fluid. Urine samples were obtained from the total collection for 24 h for estimation of rumen microbial protein supply using urinary purine derivatives. Our results showed that the use of lipid sources combined with glycerol did not induce significant changes in rumen pH, acetate molar proportion, ruminal microbial protein or dry matter intake. Although the acetate molar proportion was kept constant within normal parameters, the propionate molar proportion was increased by the diet containing lipid sources. Moreover, we found that there was a negative effect of lipid sources on crude protein and neutral detergent fibre corrected for ash and protein intake, and one positive effect on ether extract intake. We believe that association between fat and glycerol may affect rumen fermentation parameters through reducing fibre intake and increasing propionate production and ammonia nitrogen.

Additional keywords: glycerol, intake of dry matter, lipid sources, microbial protein, rumen fermentation.


References

Albo El-Norb S, AbuGhazaleha AA, Potua RB, Hastingsa D, Khattabb MSA (2010) Effects of differing levels of glycerol on rumen fermentation and bacteria. Animal Feed Science and Technology
Effects of differing levels of glycerol on rumen fermentation and bacteria.Crossref | GoogleScholarGoogle Scholar |

Arelovich HM, Abney CS, Vizcarra JA, Galyean ML (2008) Effects of dietary neutral detergent fiber on intakes of dry matter and net energy by dairy and beef cattle: analysis of published data. The Professional Animal Scientist 24, 375–383.

Association of Official Analytical Chemisty (AOAC) (1995) ‘Official methods of analysis.’ 16th edn. (AOAC International: Arlington, VA)

Boudon A, Acosta A, Delagarde R, Peyraud JL (2006) Release of cell contents and comminution of particles of perennial ryegrass herbage during ingestion by dairy cows fed indoors or grazing. Grass and Forage Science 61, 205–217.
Release of cell contents and comminution of particles of perennial ryegrass herbage during ingestion by dairy cows fed indoors or grazing.Crossref | GoogleScholarGoogle Scholar |

Cooke KM, Bernard JK, Wildman CD, West JW, Parks AH (2007) Performance and ruminal fermentation of dairy cows fed whole cottonseed with elevated concentrations of free fatty acids in the oil. Journal of Dairy Science 90, 2329–2334.
Performance and ruminal fermentation of dairy cows fed whole cottonseed with elevated concentrations of free fatty acids in the oil.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXkvVSlsLs%3D&md5=cde4f22b226a4f73c08c5a00645a8ec4CAS | 17430935PubMed |

Fiorentini G, Santana MCA, Sampaio AAM, Reis RA, Ribeiro AF, Berchielli TT (2012) Intake and performance of confined crossbred heifers fed different lipid sources. Revista Brasileira de Zootecnia 41, 1490–1498.
Intake and performance of confined crossbred heifers fed different lipid sources.Crossref | GoogleScholarGoogle Scholar |

Fujihara T, Ørskov ER, Reeds PJ (1987) The effect of protein infusion on urinary excretion of purine derivatives in ruminants nourished by intragastric nutrition. The Journal of Agricultural Science 109, 7–12.
The effect of protein infusion on urinary excretion of purine derivatives in ruminants nourished by intragastric nutrition.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL2sXlsFegsr0%3D&md5=53036e20ae4c39387dc06e46d8abe60eCAS |

Harvatine KJ, Allen MS (2006) Fat Supplements affect fractional rates of ruminal fatty acid biohydrogentaion and passage in dairy cows. The Journal of Nutrition 136, 677–685.

Jouany JP (1996) Effect of rumen protozoa on nitrogen utilization by ruminants. Journal of Nutrition 126, 1335–1346.

Lee MRF, Harris LJ, Dewhurst RJ, Merry RJ, Scollan ND (2003) The effect of clover silages on long chain fatty acid rumen transformations and digestion in beef steers. Animal Science 76, 491–501.

Mach N, Bach A, Devant M (2008) Effects of crude glycerin supplementation on performance and meat quality of Holstein bulls fed high-concentrate diets. Journal of Animal Science 87, 632–638.
Effects of crude glycerin supplementation on performance and meat quality of Holstein bulls fed high-concentrate diets.Crossref | GoogleScholarGoogle Scholar | 18952726PubMed |

Messana JD, Berchielli TT, Arcuri PB, Ribeiro AF, Fiorentini G, Canesin RC (2012) Effects of different lipid levels on protozoa population, microbial protein synthesis and rumen degradability in cattle. Acta Scientiarum. Animal Science 34, 279–285.

Metz PAM, de Menezes LFG, Arboitte MZ, Brondani IL, Restle J, Callegaro AM (2009) Influência do peso ao início da terminação sobre as características de carcaça e da carne de novilhos mestiços Nelore × Charolês. Revista Brasileira de Zootecnia 38, 346–353.
Influência do peso ao início da terminação sobre as características de carcaça e da carne de novilhos mestiços Nelore × Charolês.Crossref | GoogleScholarGoogle Scholar |

Morais JAS, Berchielli TT, Reis RA (2006) Aditivos. In ‘Nutrição de ruminantes’. 1st edn. (Eds TT Berchielli, AV Pires, SG Oliveira) pp. 539–570. (Funep: Jaboticabal, São Paulo, Brazil)

Nagaraja TG, Newbold CJ, Van Nevel CJ (1997) Manipulation of ruminal fermentation.In ‘Rumen microbial ecosystem’. (Ed. NP Hobson) pp. 523–631. (Blackie: London)

Onetti SG, Shaver RD, McGuire MA, Grummer RR (2001) Effect of type and level of dietary fat on rumen fermentation and performance of dairy cows fed corn silage-based diets. Journal of Dairy Science 84, 2751–2759.
Effect of type and level of dietary fat on rumen fermentation and performance of dairy cows fed corn silage-based diets.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38Xosl2rsA%3D%3D&md5=635965b832e96b1d303e19d7e36580faCAS | 11814031PubMed |

Parsons GL, Shelor MK, Drouillard JS (2009) Performance and carcass traits of finishing heifers fed crude glycerin. Journal of Animal Science 87, 653–657.
Performance and carcass traits of finishing heifers fed crude glycerin.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXisFGns7o%3D&md5=9912d51b6c0b5ecab5b8698546283ebcCAS | 18849392PubMed |

Roger V, Fonty G, Andre C, Gouet P (1992) Effects of glycerol on the growth, adhesion, and cellulolytic activity of rumen cellulolytic bacteria and anaerobic fungi. Current Microbiology 25, 197–201.
Effects of glycerol on the growth, adhesion, and cellulolytic activity of rumen cellulolytic bacteria and anaerobic fungi.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3sXhvFSqsQ%3D%3D&md5=6ff65d26b9ca59afc6982457d94ccfb6CAS | 1368974PubMed |

Russell JB, Strobel HJ, Chen G (1988) The enrichment and isolation of a ruminal bacterium with a very high specific activity of ammonia production. Applied and Environmental Microbiology 54, 872–877.

Silva DJ, Queiroz AC (2002) ‘Análise de alimentos: Métodos químicos e biológicos.’ 3rd edn. (Editora UFV: Viçosa, Brazil)

Shingfield KJ, Lee MRF, Humphries DJ, Scollan ND, Toivonen V, Beever DE, Reynolds CK (2011) Effect of linseed oil and fish oil alone or as an equal mixture on ruminal fatty acid metabolism in growing steers fed maize silage-based diets Journal of Animal Science 89, 3728–3741.
Effect of linseed oil and fish oil alone or as an equal mixture on ruminal fatty acid metabolism in growing steers fed maize silage-based dietsCrossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3MXhsVSqsrvL&md5=7ff0dffbf87d8c951b3ea16bb6a83b80CAS | 21705636PubMed |

Valadares RFD, Gonçalves LC, Sampaio IB (1997) Níveis de proteína em dietas de bovinos. 2. Consumo, digestibilidade e balanços de compostos nitrogenados. Revista Brasileira de Zootecnia 26, 1259–1263.

Valadares Filho SC, Marcondes ML, Chizzotti ML, Paulino PVR (Eds) (2010) ‘Exigências nutricionais de zebuínos Puros e Cruzados: BR CORTE.’ 2nd edn. (UFV, Suprema Gráfica Ltda: Viçosa, Brazil)

Van Soest PJ (1994) ‘Nutritional ecology of the ruminant’. (Comstock University Press: Ythaca, NY)

Van Soest PJ, Robertson JB, Lewis BA (1991) Methods for dietary fiber, neutral detergent fiber, and non-starch polysaccharides in relation to animal nutrition. Journal of Dairy Science 74, 3583–3597.
Methods for dietary fiber, neutral detergent fiber, and non-starch polysaccharides in relation to animal nutrition.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK38%2FnvVCltA%3D%3D&md5=1b837d0361716b7c813fff797a7701e0CAS | 1660498PubMed |

Verbic J, Chen XB, MacLeod NA, Orskov ER (1990) Excretion of purine derivatives by ruminants: effects of microbial nucleic acids infusion on purine derivative excretion by steers. The Journal of Agricultural Science 114, 243–248.
Excretion of purine derivatives by ruminants: effects of microbial nucleic acids infusion on purine derivative excretion by steers.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3cXlt12ksL8%3D&md5=24493afa888722eb332626373bb27f79CAS |

Wang C, Liu Q, Huo WJ, Yang WZ, Dong KH, Huang YX, Guo G (2009) Effects of glycerol on rumen fermentation, urinary excretion of purine derivatives and feed digestibility in steers. Livestock Science 121, 15–20.
Effects of glycerol on rumen fermentation, urinary excretion of purine derivatives and feed digestibility in steers.Crossref | GoogleScholarGoogle Scholar |

Weiss WP, Pinos-Rodriguez JM (2009) Production responses of dairy cows when fed supplemental fat in low- and high forage diets. Journal of Dairy Science 92, 6144–6155.
Production responses of dairy cows when fed supplemental fat in low- and high forage diets.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXhsFWitr%2FP&md5=90be5d12ebbaa89919c87927c3877ef4CAS | 19923617PubMed |