Free Access
Issue |
Anim. Res.
Volume 50, Number 4, July-August 2001
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Page(s) | 265 - 273 | |
DOI | https://doi.org/10.1051/animres:2001113 |
References
- 1
- Altaf U.R., Mauricio R., Mould F.L., Smith T., Owen E., Phipps R.H., Theodorou M.K., Comparison of bovine rumen liquor and bovine faeces as sources of microorganisms for the in vitro gas production techniques for assessing silages of maize and maize plant fractions, Proceedings of the British Society of Animal Science, BSAS Annual Winter Meeting, Scarborough, UK, 1998, 60 p.
- 2
- Blümmel B.Y., Ørskov E.R., Comparison of in vitro gas production and nylon bag degradability of roughages in predicting feed intake in cattle, Anim. Feed Sci. Technol. 40 (1993) 109-119.
- 3
- Blümmel B.Y., Steingass H., Becker K., The relationship between in vitro gas production, in vitro microbial biomass yield and 15N incorporation and its implications for the prediction of voluntary feed intake of roughages, Brit. J. Nutr. 77 (1997) 911-921.
- 4
- Borba A.E.S., Gonçalves L.M.O., A comparison of three sources of inocula in the gas production method as predictors of the in vivo apparent digestibility, 47th Annual Meeting of the European Association for Animal Production, Lillehammer, Norway, 1996, 78 p.
- 5
- Borba A.E.S., Ramalho Ribeiro J.M.C., Valor nutritivo do azevém verde e ensilado, em três fases de desenvolvimento, Rev. Portuguesa Zoot. 1 (1994) 63-75.
- 6
- Borba A.E.S., Ramalho Ribeiro J.M.C., Variaç ao do valor nutritivo e da degradabilidade in situ da matéria seca e da proteína bruta do milho com a época de corte e com o método de conservaçao, Rev. Ciên. Agr. 18 (1995) 35-47.
- 7
- Borba A.E.S., Ramalho Ribeiro J.M.C., Nutritive value and in situ dry matter and protein degradation of green and ensiled oats at three stage of growth, Rev. Portuguesa Zoot. 3 (1996) 55-66.
- 8
- Borba A.E.S., Ramalho Ribeiro J.M.C., Nutritive value and in situ dry matter and protein degradability of fresh and ensiled Italian ryegrass at three stage of growth, Arquipélago, Life and Marine Sciences 14A (1996) 85-94.
- 9
- Cone J.W., van Gelder A.H., Driehuis F., Description of gas production profiles with a three-phasic model, Anim. Feed Sci. Technol. 66 (1997) 31-45.
- 10
- El Shaer H.M., Omed H.M., Chamberlain A.G., Axford R.F.E., Use of faecal organisms from sheep for the in vitro determination of digestibility, J. Agric. Sci. (Camb.) 109 (1987) 257-259.
- 11
- Gonçalves L.M.B.O., Borba A.E.S., Study of gas production capacity by three sources of inocula, J. Agric. Sci. (Camb.) 127 (1996) 511-515.
- 12
- Herrero M., Fawcett R.H., Dent J.B., Seasonal differences in the metabolizable energy concentration of kikuyu grass as predicted from in vitro gas production measurements, Ann. Zootech. 44 (Suppl.) (1995) 46.
- 13
- Lana R.P., Russel J.B., Van Amburgh E., The role of pH in regulation ruminal methane and ammonia production, J. Anim. Sci. 76 (1998) 2190-2196.
- 14
- Khazaal K., Dentinho M.T., Ribeiro J.M., Ørskov E.R., A comparison of gas production during incubation with rumen contents in vitro and nylon bag degradability as predictors of the apparent digestibility in vivo and the voluntary intake of hays, Anim. Prod. 57 (1993) 105-112.
- 15
- Khazaal K., Dentinho M.T., Ribeiro J.M., Ørskov E.R., Prediction of apparent digestibility and the voluntary intake of hays fed to sheep: comparison between using fibre components in vitro digestibility or characteristics of gas production or nylon degradation, Anim. Sci. 61 (1995) 527-538.
- 16
- Mauricio R., Abdalla A.L., Mould F.L., Altaf U.R., Smith T., Owen E., Givens D.I., Dhanoa M.S., Theodorou M.K., Comparison of bovine rumen liquor and faeces as sources of micro-organisms for the in vitro gas production technique for assessed silages using twelve gramminaceous forages, Proceedings of the British Society of Animal Science, BSAS Annual Winter Meeting, Scarborough, UK, 1998, 60 p.
- 17
- Mauricio R.M., Mould F.L., Dhanoa M.S., Owen E., Channa K.S., Theodorou M.K., A semi-automated in vitro gas production technique for ruminant feedstuff evaluation, Anim. Feed Sci. Technol. 79 (1999) 321-330.
- 18
- McDonald I., A revised model for the estimation of protein degradability in the rumen, J. Agric. Sci. (Camb.) 96 (1981) 251-252.
- 19
- Menke K.H., Raab L., Salewski A., Steingass H., Fritz D., Schneider W., The estimation of the digestibility and metabolizable energy content of ruminant feedingstuffs from the gas production where then are incubated with rumen liquor in vitro, J. Agric. Sci. (Camb.) 93 (1979) 217-222.
- 20
- Nagadi S., Herrero M., Jessop N.S., A comparison of the gas production profiles of fresh and dry forage, Proceedings of the British Society of Animal Science, BSAS Annual Winter Meeting, Scarborough, UK, 1998, 62 p.
- 21
- Nikolic' J.A., Jovanovic M., Zeremski D., Application of a modified in vitro procedure in the prediction of organic matter digestibility of feedstuffs for ruminants, Acta Vet. (Beograd) 37 (1987) 3-12.
- 22
- Orskov E.R., McDonald I., The estimation of protein degradability in the rumen from incubation measurements weighted according rate of passage, J. Agric. Sci. (Camb.) 92 (1979) 499-503.
- 23
- Omed H.M., Axford R.F.E., Chamberlain A.G., Givens D.I., A comparison of three laboratory techniques for the estimation of the digestibility of feedstuffs for ruminants, J. Agric. Sci. (Camb.) 113 (1989) 35-39.
- 24
- Sileshi Z., Owen E., Dhanoa M.S., Theodorou M.K., Prediction of in situ rumen dry matter disappearance of Ethiopian forages from a in vitro gas production technique using a pressure transducer, chemical analyses or in vitro digestibility, Anim. Feed Sci. Technol. 61 (1996) 73-87.
- 25
- Steel R.G.D., Torrie J.H., Principles and Procedure of Statistics, Second Edition, McGraw-Hill Book Company, USA, 1980.
- 26
- Susmel P., Mills C.R., Spanghero M., Stefanon B., The prediction of the nutritive value and degradability of Mediterranean forages by in vitro gas production, Zootech. Nutr. Anim. 21 (Suppl. 6) (1995) 135-142.
- 27
- Theodorou M.T., Williams B.A., Dhanoa M.S., McAllan A.B., France J., A simple gas production method using a pressure transducer to determine the fermentation kinetics of ruminant feeds, Anim. Feed Sci. Technol. 48 (1994) 185-197.
Abstract
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