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Abstract

We hypothesized that inoculating the rumen of beef cattle with rumen contents of bison and supplementing with exogenous fibrolytic enzymes (FE) would improve ruminal feed digestibility by enhancing microbiome activity in the rumen. The objectives of this study were to evaluate the effects of...

Author(s)
He, Z. X.; Ribeiro, G. O.; Beauchemin, K. A.; McAllister, T. A.; Yang, W. Z.
Publisher
Elsevier, Amsterdam, Netherlands
Citation
Animal Feed Science and Technology, 2019, 248, pp 37-46
Abstract

Universally applicable empirical equations specific for high- and low-forage diets were developed to improve the prediction of enteric methane production (eCH4) from beef cattle. A database built using treatment means from published beef studies conducted in numerous countries was divided into two...

Author(s)
Escobar-Bahamondes, P.; Oba, M.; Beauchemin, K. A.
Publisher
NRC Research Press, Ottawa, Canada
Citation
Canadian Journal of Animal Science, 2017, 97, 1, pp 83-94
Abstract

The protocol for the National Inventory of agricultural greenhouse gas emissions in The Netherlands includes a dynamic and mechanistic model of animal digestion and fermentation as an Intergovernmental Panel on Climate Change (IPCC) Tier 3 approach to estimate enteric CH4 emission by dairy cows....

Author(s)
Bannink, A.; Schijndel, M. W. van; Dijkstra, J.
Publisher
Elsevier Ltd, Oxford, UK
Citation
Animal Feed Science and Technology, 2011, 166/167, pp 603-618
Abstract

The objectives of this study were to evaluate the relationship between residual feed intake (RFI; g/d) and enteric methane (CH4) production (g/kg DM) and to compare CH4 and carbon dioxide (CO2) emissions measured using respiration chambers (RC) and the GreenFeed emission monitoring (GEM) system...

Author(s)
Alemu, A. W.; Vyas, D.; Manafiazar, G.; Basarab, J. A.; Beauchemin, K. A.
Publisher
American Society of Animal Science, Savoy, USA
Citation
Journal of Animal Science, 2017, 95, 8, pp 3727-3737
Abstract

Emissions of CH4 methane from beef cattle grazing pastures characteristic of northern Australia are yet to be reliably quantified. Poor quality pastures and low animal productivity are typically associated with high CH4 emissions/unit animal product. Our study reports two independent methodologies...

Author(s)
Tomkins, N. W.; McGinn, S. M.; Turner, D. A.; Charmley, E.
Publisher
Elsevier Ltd, Oxford, UK
Citation
Animal Feed Science and Technology, 2011, 166/167, pp 240-247
Abstract

There are limited data in the literature concerning in vivo effects of dietary fat supplementation on enteric CH4 emissions from lactating dairy cows. The purpose of this experiment was to evaluate four dietary treatments designated as control (CON), brewers grains (BG), hominy meal and...

Author(s)
Moate, P. J.; Williams, S. R. O.; Grainger, C.; Hannah, M. C.; Ponnampalam, E. N.; Eckard, R. J.
Publisher
Elsevier Ltd, Oxford, UK
Citation
Animal Feed Science and Technology, 2011, 166/167, pp 254-264
Abstract

Estimates of enteric methane (CH4) emissions from ruminants are typically measured by confining animals in large chambers, using head hoods or masks, or by a ratiometric technique involving sampling respired air of the animal. These techniques are not appropriate to evaluate large-scale farm...

Author(s)
McGinn, S. M.; Flesch, T. K.; Harper, L. A.; Beauchemin, K. A.
Publisher
American Society of Agronomy, Madison, USA
Citation
Journal of Environmental Quality, 2006, 35, 1, pp 14-20

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