Effect of a bacterial inoculant on rate of fermentation and chemical composition of high dry matter grass silages

F. DRIEHUIS; P. G. van WIKSELAAR; A. M. van VUUREN; S. F. SPOELSTRA

doi:10.1017/S0021859696004157

Abstract

Four experiments were carried out in Lelystad, The Netherlands in 1994, in which perennial ryegrass wilted to 421–568 g dry matter (DM) kg−1 was ensiled with and without an inoculant containing Lactobacillus plantarum and Enterococcus faecium strains in 1-litre capacity laboratory silos. Treated silages showed a markedly increased rate of pH decline. The final pH of treated silages was reached 20–30 days after ensiling, whereas acidification of control silages continued during the full 180-day ensilage period. After 180 days ensilage, treated silages showed significantly (P<0·001) lower pH, DM loss and ammonia-N concentrations and significantly (P<0·001) higher lactic acid concentrations than control silages in all experiments. Concentrations of ethanol and acetic acid were significantly (at least P<0·05) lower for the treated silages, except for acetic acid in one experiment and ethanol in another. Butyric acid was not found in any of the silages. One of the control silages (ensiled at 517 g DM kg−1) contained ethanol as the major fermentation product indicating that alcoholic fermentation had taken place, probably by yeasts. Treated and untreated grasses used in the first experiment (432 and 442 g DM kg−1, respectively) were also used to produce silages in two 40-t capacity clamp silos. Similar to the laboratory silos, the treated silage had a higher lactic acid concentration and lower pH and ethanol, acetic acid and ammonia-N concentrations than the untreated silage.

Crossref Citations

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Driehuis, F. Elferink, S. J. W. H. Oude and Spoelstra, S. F. 1999. Anaerobic lactic acid degradation during ensilage of whole crop maize inoculated with Lactobacillus buchneri inhibits yeast growth and improves aerobic stability. Journal of Applied Microbiology, Vol. 87, Issue. 4, p. 583.

Wilkinson Hill and Leaver 1999. Effect of swath treatment on water loss during field‐wilting and on feeding value of perennial ryegrass silage. Grass and Forage Science, Vol. 54, Issue. 3, p. 227.

Cone, J.W. Van Gelder, A.H. Soliman, I.A. De Visser, H. and Van Vuuren, A.M. 1999. Different Techniques to Study Rumen Fermentation Characteristics of Maturing Grass and Grass Silage. Journal of Dairy Science, Vol. 82, Issue. 5, p. 957.

Driehuis, Frank and van Wikselaar, Piet G 2000. The occurrence and prevention of ethanol fermentation in high-dry-matter grass silage. Journal of the Science of Food and Agriculture, Vol. 80, Issue. 6, p. 711.

Driehuis, F. and Elferink, S.J.W.H. Oude 2000. The impact of the quality of silage on animal health and food safety: A review. Veterinary Quarterly, Vol. 22, Issue. 4, p. 212.

Driehuis, F. Oude Elferink, S. J. W. H. and Van Wikselaar, P. G. 2001. Fermentation characteristics and aerobic stability of grass silage inoculated with Lactobacillus buchneri, with or without homofermentative lactic acid bacteria. Grass and Forage Science, Vol. 56, Issue. 4, p. 330.

Driehuis, F. and Van Wikselaar, P. G. 2001. Determination of microbial protein in perennial ryegrass silage. Grass and Forage Science, Vol. 56, Issue. 1, p. 75.

Hetta, M. Cone, J. W. Gustavsson, A.‐M. and Martinsson, K. 2003. The effect of additives in silages of pure timothy and timothy mixed with red clover on chemical composition and in vitro rumen fermentation characteristics. Grass and Forage Science, Vol. 58, Issue. 3, p. 249.

Johansson, M. Emmoth, E. Salomonsson, A.‐C. and Albihn, A. 2005. Potential risks when spreading anaerobic digestion residues on grass silage crops – survival of bacteria, moulds and viruses. Grass and Forage Science, Vol. 60, Issue. 2, p. 175.

Bernardes, Thiago Fernandes Reis, Ricardo Andrade Siqueira, Gustavo Rezende Amaral, Rafael Camargo do and Pires, Aureliano José Vieira 2007. Estabilidade aeróbia da ração total e de silagens de capim-marandu tratadas com aditivos químicos e bacterianos. Revista Brasileira de Zootecnia, Vol. 36, Issue. 4, p. 754.

Senevirathne, N.D. Okamoto, T. Takahashi, J. Umetsu, K. and Nishida, T. 2012. Effect of Mixed Microbial Culture Treatment on the Nutritive Value of Coffee, Green Tea and Oolong Tea Residues and the Effect of the Fermented Residues on in Vitro Rumen Fermentation. APCBEE Procedia, Vol. 4, Issue. , p. 66.

Inoue, Hidehiko Tohno, Masanori Kobayashi, Hisami Matsuo, Morinobu Kojima, Yoichiro Ibuki, Toshihiko and Uegaki, Ryuichi 2013. Effects of moisture control, addition of glucose, inoculation of lactic acid bacteria and crushing process on the fermentation quality of rice grain silage. Grassland Science, Vol. 59, Issue. 2, p. 63.

Williams, Shane D. and Shinners, Kevin J. 2014. Farm-scale anaerobic storage and aerobic stability of high dry matter perennial grasses as biomass feedstocks. Biomass and Bioenergy, Vol. 64, Issue. , p. 91.

Mohammadzadeh, H. Khorvash, M. and Ghorbani, G. R. 2014. Ensiling corn silage with different levels of a multi-species lactic acid bacteria inoculant. Animal Production Science, Vol. 54, Issue. 2, p. 165.

Mohammadzadeh, Hamid Khorvash, Mohammad and Ghorbani, Gholam-Reza 2014. Short- and long-time effects of multispecies lactic acid bacteria inoculant on fermentation characteristics and aerobic stability of corn silages at different maturities and frost killed corn. Journal of Applied Animal Research, Vol. 42, Issue. 4, p. 371.

Kung, Limin Stokes, Martin R. and Lin, C. J. 2015. Silage Science and Technology. p. 305.

Pahlow, Günter Muck, Richard E. Driehuis, Frank Elferink, Stefanie J. W. H. Oude and Spoelstra, Sierk F. 2015. Silage Science and Technology. p. 31.

Goeser, J.P. Heuer, C.R. and Crump, P.M. 2015. Forage fermentation product measures are related to dry matter loss through meta-analysis. The Professional Animal Scientist, Vol. 31, Issue. 2, p. 137.

Gandra, Jefferson Rodrigues Oliveira, Euclides Reuter Gandra, Erika Rosendo de Sena Takiya, Caio Seiti Goes, Rafael Henrique Tonissi Buschineli de Oliveira, Kelly Mari Pires Silveira, Karina Andrade Araki, Hayne Mayume Cariolano Orbach, Natyaro Duan and Vasquez, Dalila Nara 2017. Inoculation of Lactobacillus buchneri alone or with Bacillus subtilis and total losses, aerobic stability, and microbiological quality of sunflower silage. Journal of Applied Animal Research, Vol. 45, Issue. 1, p. 609.

Gallo, Antonio Bernardes, Thiago F. Copani, Giuseppe Fortunati, Paola Giuberti, Gianluca Bruschi, Sara Bryan, Keith A. Nielsen, Natasja G. Witt, Kristian L. and Masoero, Francesco 2018. Effect of inoculation with Lactobacillus buchneri LB1819 and Lactococcus lactis O224 on fermentation and mycotoxin production in maize silage compacted at different densities. Animal Feed Science and Technology, Vol. 246, Issue. , p. 36.

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Effect of a bacterial inoculant on rate of fermentation and chemical composition of high dry matter grass silages

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