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S M McGinn

Showing results (1-10 of 34) with videos related to

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Animal : an International Journal of Animal Bioscience|June 7, 2013
Developments in micrometeorological methods for methane measurementsS M McGinn
Journal of Animal Science|May 16, 2006
Methane emissions from beef cattle: effects of fumaric acid, essential oil, and canola oilK A Beauchemin, S M McGinn
Journal of Animal Science|February 12, 2005
Methane emissions from feedlot cattle fed barley or corn dietsK A Beauchemin, S M McGinn
Journal of Environmental Quality|January 6, 2012
Dairy farm methane emissions using a dispersion modelS M McGinn, K A Beauchemin
Journal of Environmental Quality|August 23, 2003
Atmospheric ammonia, volatile fatty acids, and other odorants near beef feedlotsS M McGinn, H H Janzen, T Coates
Journal of Dairy Science|November 29, 2011
Prediction of enteric methane output from milk fatty acid concentrations and rumen fermentation parameters in dairy cows fed sunflower, flax, or canola seedsR Mohammed, S M McGinn, K A Beauchemin
Journal of Animal Science|March 13, 2013
Ammonia emissions and performance of backgrounding and finishing beef feedlot cattle fed barley-based diets varying in dietary crude protein concentration and rumen degradabilityK M Koenig, S M McGinn, K A Beauchemin
Journal of Dairy Science|April 25, 2009
Crushed sunflower, flax, or canola seeds in lactating dairy cow diets: effects on methane production, rumen fermentation, and milk productionK A Beauchemin, S M McGinn, C Benchaar, et al.
Journal of Animal Science|November 16, 2004
Methane emissions from beef cattle: Effects of monensin, sunflower oil, enzymes, yeast, and fumaric acidS M McGinn, K A Beauchemin, T Coates, et al.
Journal of Animal Science|March 13, 2012
Technical note: Can the sulfur hexafluoride tracer gas technique be used to accurately measure enteric methane production from ruminally cannulated cattle?K A Beauchemin, T Coates, B Farr, et al.
Pageof 4

Showing results (1-10 of 34) with videos related to

Sort By:
Pageof 4
Animal : an International Journal of Animal Bioscience|June 7, 2013
Developments in micrometeorological methods for methane measurementsS M McGinn
Journal of Animal Science|May 16, 2006
Methane emissions from beef cattle: effects of fumaric acid, essential oil, and canola oilK A Beauchemin, S M McGinn
Journal of Animal Science|February 12, 2005
Methane emissions from feedlot cattle fed barley or corn dietsK A Beauchemin, S M McGinn
Journal of Environmental Quality|January 6, 2012
Dairy farm methane emissions using a dispersion modelS M McGinn, K A Beauchemin
Journal of Environmental Quality|August 23, 2003
Atmospheric ammonia, volatile fatty acids, and other odorants near beef feedlotsS M McGinn, H H Janzen, T Coates
Journal of Dairy Science|November 29, 2011
Prediction of enteric methane output from milk fatty acid concentrations and rumen fermentation parameters in dairy cows fed sunflower, flax, or canola seedsR Mohammed, S M McGinn, K A Beauchemin
Journal of Animal Science|March 13, 2013
Ammonia emissions and performance of backgrounding and finishing beef feedlot cattle fed barley-based diets varying in dietary crude protein concentration and rumen degradabilityK M Koenig, S M McGinn, K A Beauchemin
Journal of Dairy Science|April 25, 2009
Crushed sunflower, flax, or canola seeds in lactating dairy cow diets: effects on methane production, rumen fermentation, and milk productionK A Beauchemin, S M McGinn, C Benchaar, et al.
Journal of Animal Science|November 16, 2004
Methane emissions from beef cattle: Effects of monensin, sunflower oil, enzymes, yeast, and fumaric acidS M McGinn, K A Beauchemin, T Coates, et al.
Journal of Animal Science|March 13, 2012
Technical note: Can the sulfur hexafluoride tracer gas technique be used to accurately measure enteric methane production from ruminally cannulated cattle?K A Beauchemin, T Coates, B Farr, et al.
Pageof 4