Abstract
Societal pressure to reduce enteric methane emissions from cattle continues to increase. The present study evaluated the efficacy of the commercial essential oil feed additive Agolin® Ruminant on reducing enteric gas emissions and improving milk parameters in dairy cattle. Twenty mid-lactation Holstein cows, blocked by parity and days in milk, were randomly assigned to a top dress treatment with Agolin or an un-supplemented control for a 56-day trial. Cows were group housed and individually fed twice daily. Enteric gas emissions, including methane, carbon dioxide, ammonia, and nitrous oxide, were sampled every 14 days for a 12 h period via head chambers connected to a mobile air quality laboratory. Cows supplemented with Agolin versus the control had less methane intensity (g/period/kg energy-corrected milk (ECM); p = 0.025). Ammonia was the most affected gas, with lower ammonia production (mg/period; p = 0.028), and ammonia intensity (mg/period/kg ECM; p = 0.011) in Agolin-fed versus control-fed cows. All cow performance variables, including dry matter intake, ECM, milk fat, milk protein, or feed efficiency were similar between treatments. Further research should evaluate how Agolin impacts ruminal flora, focusing on mechanistic impacts to fermentation.
Highlights
Air pollutants have strong effects on public and environmental health
Methane production was found to be similar between Agolin® Ruminant (AGO)-treated versus CON-treated cows (p > 0.05; Table 2)
Methane production differed by day (p < 0.001; Table S1), whereas the interaction of treatment by day was not significant
Summary
Carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O) are greenhouse gases (GHGs) that have received attention due to their contribution to climate change [1]. These GHGs, as well as ammonia (NH3), can be emitted by animal agricultural processes. The primary focus of this bill lies on CH4 emissions from all sources, but within the dairy sector, both CH4 manure mitigation and enteric fermentation CH4 can be considered. With enteric fermentation accounting for 28% of total CH4 emissions in the United States [1], reducing emissions from this source of CH4 is important
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