Abstract
The objective of this study was to investigate whether the CH4 mitigation potential of 3-nitrooxypropanol (3-NOP) in dairy cattle was affected by basal diet (BD) composition. The experiment involved 64 Holstein-Friesian dairy cows (146 ± 45 d in milk at the start of trial; mean ± SD) in 2 overlapping crossover trials, each consisting of 2 measurement periods. Cows were blocked according to parity, d in milk, and milk yield, and randomly allocated to 1 of 3 diets: a grass silage-based diet (GS) consisting of 30% concentrates and 70% grass silage (DM basis), a grass silage- and corn silage-mixed diet (GSCS) consisting of 30% concentrates, 42% grass silage, and 28% corn silage (DM basis), or a corn silage-based diet (CS) consisting of 30% concentrates, 14% grass silage, and 56% corn silage (DM basis). Two types of concentrates were formulated, viz. a concentrate for the GS diet and a concentrate for the CS diet, to meet the energy and protein requirements for maintenance and milk production. The concentrate for the GSCS diet consisted of a 50:50 mixture of both concentrates. Subsequently, the cows within each type of BD received 2 treatments in a crossover design: either 60 mg of 3-NOP/kg of DM (NOP60) and a placebo with 0 mg of 3-NOP/kg of DM (NOP0) in one crossover or 80 mg of 3-NOP/kg of DM (NOP80) and NOP0 in the other crossover. Diets were provided as total mixed ration in feed bins, which automatically recorded feed intake. Additional concentrate was fed in the GreenFeed system that was used to measure emissions of CH4 and H2. The CS diets resulted in a reduced CH4 yield (g/kg DMI) and CH4 intensity (g/kg milk). Feeding 3-NOP resulted in a decreased DMI. Milk production and composition did not differ between NOP60 and NOP0, whereas milk yield and the yield of major components decreased for NOP80 compared with NOP0. Feed efficiency was not affected by feeding 3-NOP. Interactions between BD and supplementation of 3-NOP were observed for the production (g/d) and yield (g/kg DMI) of both CH4 and H2, indicating that the mitigating effect of 3-NOP depended on the composition of the BD. Emissions of CH4 decreased upon 3-NOP supplementation for all BD, but the decrease in CH4 emissions was smaller for GS (-26.2% for NOP60 and -28.4% for NOP80 in CH4 yield) compared with both GSCS (-35.1% for NOP60 and -37.9% for NOP80 for CH4 yield) and CS (-34.8% for NOP60 and -41.6% for NOP80 for CH4 yield), with no difference between the latter 2 BD. Emissions of H2 increased upon 3-NOP supplementation for all BD, but the H2 yield (g/kg DMI) increased 3.16 and 3.30-fold, respectively, when NOP60 and NOP80 were supplemented to GS, and 4.70 and 4.96 fold, respectively, when NOP60 and NOP80 were supplemented to CS. In conclusion, 3-NOP can effectively decrease CH4 emissions in dairy cows across diets, but the level of CH4 mitigation is greater when supplemented in a corn silage-based diet compared with a grass silage-based diet.
Highlights
Enteric CH4 production is among the main targets of greenhouse gas mitigation practices for the dairy industry (Hristov et al, 2013), and multiple comprehensive reviews on enteric CH4 mitigation strategies have been published (e.g., Beauchemin et al, 2008; Martin et al., 2010; Hristov et al, 2013)
Interactions between the basal diet (BD) and 3-NOP were observed for the production (g/d) and yield (g/kg DMI)
Of both CH4 and H2, indicating that the mitigating effect of 3-NOP depended on the composition of the BD
Summary
Enteric CH4 production is among the main targets of greenhouse gas mitigation practices for the dairy industry (Hristov et al, 2013), and multiple comprehensive reviews on enteric CH4 mitigation strategies have been published (e.g., Beauchemin et al, 2008; Martin et al., 2010; Hristov et al, 2013). Several dietary strategies have been proposed to mitigate enteric CH4 production, including improvement of forage quality, feeding different forage types, supplementing lipids, and using feed additives. Several studies have investigated the effects of 3-NOP on CH4 emission in dairy cattle (e.g., Hristov et al, 2015a; Lopes et al., 2016; van Gastelen et al, 2020). In a recent study, where the efficacy of several dietary strategies across studies and between different ruminant types was compared, van Gastelen et al (2019) concluded that. 3-NOP was an effective CH4 mitigating feed additive for dairy cattle. This conclusion was based on the unaffected DMI with substantial reductions in CH4 production (g/d; on average mitigated by 35%), CH4 yield
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