Managing livestock to reduce methane emissions

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Across Australia, agriculture is the third largest source of greenhouse gas emissions after the energy and transport sectors. In NSW, agriculture contributes about 18% of the State's total greenhouse gas emissions, with livestock accounting for around 70% of agricultural emissions. Most of livestock emissions comprise of methane which is produced by the digestive processes of ruminant livestock (cattle, sheep, goats) with about 7% released from manure management.

Sources of GHG emissions (Mt CO2-e) in NSW emphasizing the agriculture sector contribution in 2022.
(Sources by sector of total GHG emissions (Mt CO2-e) in NSW over time and details NSW agriculture contribution 2022 (Source: State and Territory Greenhouse Gas Inventories; DCCEEW.gov.au)

As a greenhouse gas, methane is relatively short-lived, but potent, having a global warming potential around 30 times higher than the more persistent carbon dioxide. Changes we make to reduce livestock methane on-farm can make a significant contribution to climate change mitigation. Methane emissions also represent lost energy. Some studies have shown as much as 10% of the energy in feed may be lost due to methane emissions from digestion processes of ruminant animals. Many practices that reduce livestock methane make good economic sense because they can increase animal growth or the efficiency of production.

Below is an overview of livestock management strategies that NSW primary producers can use to reduce methane emissions while also improving productivity and animal health. More information on reducing methane emissions from livestock production, including through use of feed additives, can be found in the report, ‘Managing livestock to reduce methane emissions: Assessment of strategies for abatement of enteric methane.’ by A.K. Almeida and R.S. Hegarty, 2021.

Livestock management strategies for emission reductions

Changes in livestock management strategies can lead to emission reductions when the emissions intensity (the amount of emissions per unit of output) is reduced or the amount of methane produced by an animal is reduced.
Those changes can be applied in extensive grazing systems as well as more intensive feedlot and dairy systems, and offer flexibility for farmers to choose management options which meet their personal preferences or business goals. Livestock management strategies that can reduce methane emissions include:

• use of feed additives,
• early breeding,
• retaining high performing animals,
• enhancing fertility,
• improving animal health and welfare,
• genetically selecting animals that produce less methane,
• pastures that reduce ruminant emissions, and
• rumen manipulation.

In some cases, this may result in freeing up previously-grazed areas of the farm, which can be used for tree planting or regeneration and amplify the reduction in on-farm emissions by also increasing sequestration through vegetation and soil management. In this way, farm-level emissions can be reduced, to deliver low­ carbon or carbon neutral livestock products, or carbon credits can be created and sold to provide an additional income stream.

Use of feed additives

Producers can now purchase feed additives such as those containing the seaweed Asparagopsis and 3NOP which can significantly reduce methane emissions in ruminants. Such additives are included in small proportions in feed rations and hence are better suited to intensive dairy or beef cattle production systems. Research continues regarding potential delivery mechanisms in more extensive environments.

Early breeding

Animals intended for breeding do not contribute economically until they deliver their first offspring. However, in the meantime they consume feed and generate methane emissions. Reducing the time before first joining can therefore reduce emissions intensity and increase profitability. However, females must be at a suitable weight before they can breed for the first time. Mating underweight young females can result in lower reproductive performance which can offset any emissions reductions gained from mating early.

Retaining high performing animals

Culling for age is a standard management practice across most NSW beef and sheep properties. However, the strategy can lead to the loss of high performing animals from the herd or flock. Retaining high-performing females and reducing the number of non-productive females being reared can help to reduce emissions intensity.

Enhancing fertility

Higher fertility means that fewer breeding animals are needed in the herd to meet production targets, resulting in a reduction of methane emissions. Enhanced fertility rates can be achieved by increasing the amount of energy supplied to cows and ewes during the breeding season (nutritional flushing). Culling unproductive breeding animals and selecting for improved fertility can also help to enhance the fertility of the herd or flock and therefore reduce methane emissions.

Improving animal health and welfare

Diseased animals or those with poor welfare have lower productivity and reproduction rates. Maintaining herd health and welfare through good husbandry (including disease prevention) and culling for disease will reduce methane emissions as well as increase growth rates and reproductive performance. Maintaining health is particularly important for dairy cattle and wool sheep, to ensure long productive lifetimes.

Genetically selecting animals that produce less methane

Genetically selecting for animals that produce less methane can also lead to higher productivity and yield. While genetic selection is a slow process, and may compromise other economic traits, it is however cumulative and hence can be significant over time. For example, research shows that methane yield in beef cattle can be reduced by 1.45 per cent annually through genetic selection focused on methane. Research to identify and apply genetic markers and genomic breeding values for animals with lower methane is currently underway. Such genetic selection is likely to become a more attractive strategy in coming years.

Pastures that reduce ruminant emissions

Research is currently underway to determine pasture species and pasture mixes that have properties that lead to reduced methane production when consumed by ruminants. Such research will provide an additional tool for producers to reduce emissions if initial hypothesis are proven in trials.

Rumen manipulation

Significant opportunity exists to reduce methane emissions by better understanding the rumen biome and the potential to manipulate this biome via feed additives, vaccines, boluses or other options. Further research is required in this area.

Conclusion

Methane emissions represent energy lost from livestock production that might otherwise be converted to milk, meat or fibre. Implementing livestock management strategies to reduce methane emissions provides primary producers with opportunities to act on climate change, increase livestock productivity and improve profits. Current and future research will provide producers with improved knowledge, products and tools to reduce emissions over time.