Research indicates that methane emissions from slurry stores on dairy farms could be significantly higher than current estimates, suggesting up to a fivefold discrepancy.
The potential for converting these emissions into biogas could generate substantial economic benefits for the dairy industry, valued at over £400 million annually.
Methane Emissions and Energy Opportunities
Methane emissions from slurry stores on dairy farms may be up to five times greater than official statistics suggest, according to new research. The study also highlights the huge potential for turning them into a renewable energy source.
The study shows that if captured and turned into biogas, emitted methane could be worth more than £400m (~$530m) a year to the dairy sector in saved fuel costs, or around £52,500 (~$70,000) for an average-sized dairy farm.
Climate Impact and Research Findings
Capture technology already exists, and if rolled out across the EU dairy herd, the conversion of methane to biofuel could reduce emissions equivalent to an estimated 5.8% of the remaining global temperature rise budget, if the temperature were to be kept to 1.5 ◦C of warming.
Conducted by the University of East Anglia (UEA) and the International Fugitive Emissions Abatement Association (IFEAA), the research is based on measurements from two dairy farms in Cornwall, England. Together with a growing body of international field research, it suggests that the ‘Tier 2’ calculations used by countries to report their emissions annually to the Intergovernmental Panel on Climate Change (IPCC) may not be robust.
Emission Reporting Discrepancies
Current National Inventories of greenhouse gas (GHG) emissions report that enteric emissions — those coming directly from animals’ digestive systems — are three to nine times greater than those from manure management, including the storing and spreading of slurry and manure.
However, the findings, reported in the journal Environmental Research: Food Systems and an IFEAA Net Zero Methane Hub white paper published today, suggest the balance between enteric emissions and those from manure management could be much closer to 50:50. The authors also call for greater focus from researchers and political leaders on emissions from manure management.
Methane Management and Policy Recommendations
Prof Neil Ward, of the Tyndall Centre for Climate Change Research at UEA, said: “The standard international methodology looks to be underestimating methane emissions from slurry storage.
“Fortunately, we have the technology to turn this problem into a business opportunity for farmers who can reduce energy bills and become energy independent if they capture and make use of methane as a fuel.
“If emissions from manure management are being significantly under-estimated, this not only means that official estimates are inaccurate, but also that priorities around mitigation options might be being distorted.
“This research therefore represents an urgent call for action and further work to better understand methane emissions from manure management.”
The researchers analyzed measurements of slurry lagoon emissions from the two farms during 2022-23. The lagoons were covered with airtight covers and the methane captured.
They found slurry lagoons produce far more methane than suggested by official estimates, such as those based on methods developed by the IPCC. Actual emissions from the farms were 145kgs per cow per year and 198kgs kgs per cow per year respectively. This is four to five times higher than the existing official figure of 38kgs per cow reported in the UK’s National Inventory.
The resulting recommendations for government include research and development priorities, increasing grants for slurry covers and extending such financial support to associated gas processing equipment.
Prof Penny Atkins, IFEAA CEO, said: “The technology exists for capturing, processing and utilizing the methane that is currently lost to the atmosphere and contributing to GHG accumulation, and looks economically promising particularly if an incentives framework for capital investment on farms, coupled with regulatory support, can be implemented.
“The cumulative contribution of methane from dairy farm manure management is significant and this data shows we must act now to curb emissions.”
The researchers also suggest simplifying planning and permitting processes, and tax breaks for supply chain investment in methane recovery and use, such as investments by milk processors in supplier farms.
George Eustice, former Secretary of State for Environment, Food and Rural Affairs and chair of IFEAA, added: “Methane is a potent but short-lived Green House Gas and reducing emissions is critical to the pathway to Net Zero and limiting global temperature rises to 1.5 degrees.
“The bad news is that emissions from agriculture are higher than previously thought but the good news is that this methane is easily captured and used as an alternative to fossil fuels creating an additional income stream for farms.”
The study ‘Estimating methane emissions from manure: a suitable case for treatment?’ is published in Environmental Research, Food Systems.
Reference: “Estimating methane emissions from manure: a suitable case for treatment?” by Neil Ward, Andrew Atkins and Penny Atkins, 2 September 2024, Environmental Research: Food Systems.
DOI: 10.1088/2976-601X/ad64d7
The white paper is supported by the Net Zero Methane Hub, which has received £285,000 from the UK Government through the UK Shared Prosperity Fund.
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