In vitro screening of anti-methanogenic additives for use in Australian grazing systems

Parra, Mariano C.; Forwood, Daniel L.; Chaves, Alex V.; Meale, S. J.

doi:10.3389/fanim.2023.1123532

Cited by 4 publications

(7 citation statements)

References 36 publications

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“…In support, a meta-analysis showed that supplementation of Agolin ® Ruminants (coriander seed oil, eugenol, geranyl acetate, geraniol, and fumaric acid) produced no significant variation in the rumen pH of Holstein dairy cows [32]. On the contrary, several in vitro batch culture studies on individual or blends of essential oils, with or without fumaric acid, reported significant differences in ruminal pH [5,27,31,33]. Essential oils (EOs) have been reported to elevate rumen pH, either numerically [9,23] or significantly [15] when compared to control diets [31].…”

Section: Discussionmentioning

confidence: 99%

Synergistic Effects of Essential Oil Blends and Fumaric Acid on Ruminal Fermentation, Volatile Fatty Acid Production and Greenhouse Gas Emissions Using the Rumen Simulation Technique (RUSITEC)

Alabi,

Dele,

Okedoyin

et al. 2024

Fermentation

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This study investigated the combined impact of essential oil blends (EOBs) and fumaric acid (FA) on ruminal fermentation in dairy cows using the rumen simulation technique (RUSITEC) system. Three rumen-cannulated, non-lactating Holstein Friesian cows served as inoculum donors. The substrate, a total mixed ration (TMR), comprised corn silage, alfalfa hay, and a concentrate mix in a 3:1:1 ratio. The four treatments evaluated were Control (TMR without additives), EFA1 (TMR + EOB1 + FA), EFA2 (TMR + EOB2 + FA), and EFA3 (TMR + EOB3 + FA). Sixteen fermentation chambers were randomly assigned to the treatments, each with four replicates, following a completely randomized design during a 9-day experimental period. EOBs and FA were added at 10 µL/g feed and 3% of TMR, respectively. After a 4-day adaptation, samples were collected for 5 days. Results revealed that EFA1 significantly reduced (p = 0.0351) CH4 emissions by 60.2% without negatively impacting dry matter disappearance, fiber fraction digestibility, pH, or gas volume. All EFAs increased (p < 0.001) the propionate molar proportion and decreased (p < 0.001) the acetate-to-propionate ratio. EFA2 decreased (p < 0.05) the acetate proportion by 3.3% compared to the control. In conclusion, EFA1 is recommended as an effective nutritional intervention to mitigate CH4 emissions and optimize ruminal fermentation in dairy cows.

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Section: Discussionmentioning

confidence: 99%

Synergistic Effects of Essential Oil Blends and Fumaric Acid on Ruminal Fermentation, Volatile Fatty Acid Production and Greenhouse Gas Emissions Using the Rumen Simulation Technique (RUSITEC)

Alabi,

Dele,

Okedoyin

et al. 2024

Fermentation

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“…Badgery et al [16] found that Biserrula pelecinus has great potential to reduce enteric CH 4 emissions, similarly to clover Trifolium subterraneum. Stifkens et al [51] found that increasing the proportion of legumes such as Leucaena leucocephala in feed reduces CH 4 due to condensed tannins acting as a bioactive compound that reduce methanogenesis. A 36% inclusion of Leucaena leucocephala in the diet of cattle reduced CH 4 by 25.09% per kilogram of boneless trimmed beef.…”

Section: Feed Formulationmentioning

confidence: 99%

“…Ridoutt et al [43] explored the supplement of Asparagopsis taxiformis, a red seaweed, on feedlot cattle's CH 4 production and calculated a 1-4% reduction in Australia's cattle sector. Parra et al [51] assessed a range of additives to reduce CH 4 in grazing cattle and found the addition of biochar and nitrate, biochar and Asparagopsis, and citral extract to significantly reduce CH 4 emissions by 22.83%, 19.82%, and 41%, respectively. Lean and Moate [20] reviewed CH 4 reduction strategies in Australia and found that nitrate supplementation reduced emissions by 10% and feed supplemented with 3-nitro-oxypropanol (3-NOP) reduced CH 4 by 22% in beef cattle and 39% in dairy cattle.…”

Section: Feed Supplements and Additivesmentioning

confidence: 99%

“…Improve Parra et al 2023 [51] In vitro screening of anti-methanogenic additives for use in Australian grazing systems Study of methane reduction over 48 h of incubating rumen fluid in vitro testing with garlic powder, biochar and nitrates, biochar and Asparagopis Taxiformis, essential oil blend, citral extract, sandalwood essential oil, Bacillus probiotic additive, and sugar cane extract.…”

Section: Improvementioning

confidence: 99%

“…Inclusion of Asparagopis was the highest cost due to requirement for establishing new industry [84]. Supplementation with Asparagopis and with citral were considered to be not technologically ready due to requirements for Asparagopis commercialisation [78], and further research for citral at higher-than-recommended doses due to digestion effects is needed [51].…”

Section: Improvementioning

confidence: 99%

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Meta-Analysis and Ranking of the Most Effective Methane Reduction Strategies for Australia’s Beef and Dairy Sector

Kelliher,

Bogueva,

Marinova

2024

Climate

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Although Australia remains committed to the Paris Agreement and to reducing its greenhouse gas emissions, it was late in joining the 2021 Global Methane Pledge. Finding suitable methane (CH4) mitigation solutions for Australia’s livestock industry should be part of this journey. Based on a 2020–2023 systematic literature review and multicriteria decision approach, this study analyses the available strategies for the Australian beef and dairy sector under three scenarios: baseline, where all assessment criteria are equally weighted; climate emergency, with a significant emphasis on CH4 reduction for cattle in pasture and feedlot systems; and conservative, where priority is given to reducing costs. In total, 46 strategies from 27 academic publications were identified and classified as ‘Avoid’, ‘Shift’, or ‘Improve’ with respect to their impact on current CH4 emissions. The findings indicate that ‘Avoid’ strategies of conversion of agricultural land to wetlands, salt marshes, and tidal forest are most efficient in the climate emergency scenario, while the ‘Improve’ strategy of including CH4 production in the cattle breeding goals is the best for the conservative and baseline scenarios. A policy mix that encourages a wide range of strategies is required to ensure CH4 emission reductions and make Australia’s livestock industry more sustainable.

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Development and application of a multi-step porcine in vitro system to evaluate feedstuffs and feed additives for their efficacy in nutrient digestion, digesta characteristics, and intestinal immune responses

Kim,

Moon,

Kim

2024

Animal Nutrition

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In vitro screening of anti-methanogenic additives for use in Australian grazing systems

Cited by 4 publications

References 36 publications

Synergistic Effects of Essential Oil Blends and Fumaric Acid on Ruminal Fermentation, Volatile Fatty Acid Production and Greenhouse Gas Emissions Using the Rumen Simulation Technique (RUSITEC)

Synergistic Effects of Essential Oil Blends and Fumaric Acid on Ruminal Fermentation, Volatile Fatty Acid Production and Greenhouse Gas Emissions Using the Rumen Simulation Technique (RUSITEC)

Meta-Analysis and Ranking of the Most Effective Methane Reduction Strategies for Australia’s Beef and Dairy Sector

Development and application of a multi-step porcine in vitro system to evaluate feedstuffs and feed additives for their efficacy in nutrient digestion, digesta characteristics, and intestinal immune responses

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