Abstract
Effects of the investigational methane (CH4) inhibitor 3-nitrooxypropanol (3-NOP) on animal performance, health and enteric CH4 production of beef cattle were evaluated in a commercial feedlot. Two concurrent studies were conducted: a large pen study (4,048 cattle, eight pen replicates per experimental group) to measure animal performance and health and a small pen study (a subset of 50 cattle from the large pen study, n = 25 per experimental group) to measure enteric CH4 emissions. Within the study, animals (body weight ± SD, 282 ± 8 kg) were assigned in a completely randomized design to one of two groups: control, fed a backgrounding diet (70% corn or barley silage, 30% steam-flaked barley grain concentrate; dry matter (DM) basis) and 3-NOP, fed the backgrounding diet containing 3-NOP. The treatment group in the large pen study was adapted to 3-NOP (12 ± 3 d) before receiving the final target level of 200 mg/kg of DM, which was fed for 108 ± 8 d. Animals in the small pen CH4 emissions study received a basal diet or a basal diet with 3-NOP, with the dose increased every 28 d: low (150 mg/kg DM; 1.27 g/d), medium (175 mg/kg DM; 2.25 g/d), and high (200 mg/kg DM; 2.75 g/d). Intake in the small pens was monitored by electronic feeding bunks and CH4 was measured using the GreenFeed system. In the large pen study, total weight gained, average daily gain, and animal health variables were not affected by 3-NOP, but DM intake (DMI) tended to decrease (P = 0.06) by 2.6% relative to control (8.07 kg/d), while gain:feed ratio tended to be improved (P = 0.06) by 2.5% relative to control (0.161 kg weight gain/kg DMI). In the small pen study, average daily consumption of 3-NOP increased with inclusion rate whereas average DMI was decreased by 5.4% (P = 0.02) compared with control (10.4 kg/d). On average, addition of 3-NOP decreased (P = 0.001) CH4 emissions (g/d) by 25.7% and yield (g CH4/kg DMI) by 21.7%. In conclusion, supplementing a backgrounding diet with 3-NOP decreased CH4 yield and tended to improve feed efficiency of beef cattle fed in a commercial feedlot with no negative impacts on animal health.
Highlights
As countries move toward greenhouse gas (GHG) emission neutrality by 2050 there is increasing pressure on ruminant livestock production to reduce enteric methane (CH4) emissions
The animal performance study evaluated the effects of 3-NOP supplementation on dry matter intake (DMI), average daily gain (ADG), feed conversion efficiency, and health using cattle housed in 16 commercial feedlot pens
G:F tended to improve (2.5%; P = 0.06) by feeding 3-NOP compared with the control (0.16 kg liveweight gain/kg DM intake (DMI))
Summary
As countries move toward greenhouse gas (GHG) emission neutrality by 2050 there is increasing pressure on ruminant livestock production to reduce enteric methane (CH4) emissions. The volatile fatty acids are used by the animal as a main source of energy, while CO2 and H2 are used to form CH4, which is eructated to the atmosphere via the breath. This process allows ruminants to derive nutrients from forages and other cellulosic materials, thereby avoiding direct competition with humans. CH4 is a potent GHG with a global warming potential of 28-times that of CO2 [over a 100-year period, Intergovernmental Panel on Climate Change (IPCC), 2013]
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