AgResearch – Dairy-beef offers potential for significant emissions savings

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Source: AgResearch

Beef produced from cattle from New Zealand’s dairy sector could provide reductions in greenhouse gas emissions of up to 48 per cent, compared to the average for beef cattle, a new study by AgResearch has found.

The Life Cycle Assessment analysis by AgResearch scientists, supported by the Bioresource Processing Alliance and in partnership with organisations such as Fonterra and Alps 2 Ocean Foods, shows using fast-finishing systems with dairy-beef animals results in a carbon footprint that is 32-48 per cent lower than the average for traditional beef systems in New Zealand.

Farm data from the beef and dairy industries was used in the analysis, which was based on kilograms of carbon dioxide equivalent emissions per kilogram of finished liveweight of the animals. Scenarios were analysed for dairy-beef steers processed between 10 and 18 months of age and include emissions from animal production, input generation, transportation, and background processes.

“There are many issues at play in determining those emissions and the differences between the dairy and beef animals,” says AgResearch senior scientist Andre Mazzetto.

“These include how emissions are allocated between milk and liveweight, and issues such as growth rates, feed efficiency and the finishing period/time to slaughter of the animals.”

“This work points to tangible ways that farmers can reduce the carbon footprint of their beef herds. Emissions reductions can be achieved simply by integrating dairy-beef animals into the herd, but the scope of this reduction can be significantly increased with fast-finishing beef systems. There would be few tools or management strategies available which can have such significant climate impact.”

“Sourcing calves from the dairy industry presents an opportunity for the beef industry to significantly reduce its emissions, as well as a providing an alternative use for calves from the dairy industry. There are efforts underway to find new avenues for use of these young dairy-beef animals, such as Alps 2 Ocean Food’s Mīti product made from the meat. However, we recognise there are also management and logistical challenges for the industries to overcome, including the finishing and processing of these animals.”

Fonterra’s director of sustainability Charlotte Rutherford says Fonterra’s focus in this space is on creating more options for dairy-beef calves.

“We see the opportunity to integrate these calves into the red meat sector as a major opportunity for NZ ag. These results show that with the right genetics, care and farming systems, dairy-beef animals offer the opportunity to reduce carbon emissions, contributing to the long-term sustainability of our industry.”

Alliance Group General Manager Livestock and Shareholder Services, Murray Behrent says the study findings make a significant contribution to the New Zealand red meat sector’s efforts to reduce greenhouse gas emissions.

“We see a promising opportunity to develop a beef production and red meat processing system focused on younger livestock, which could lead to a substantial reduction in New Zealand’s emissions. Furthermore, it offers a pathway to producing low-carbon footprint protein for global food producers who are aiming to meet their Scope 3 CO2 emission targets by 2030.”

Daniel Carson, founder of Alps2Ocean Foods, says the study highlights the vast potential of low-carbon beef protein derived from non-replacement dairy calves.

“Mīti is just the beginning — a proof of concept for how surplus dairy calves can be transformed into high-value, low-carbon products. We’re excited about the possibilities this protein unlocks for other use cases, as innovators step up to add value and create impactful brands right here in Aotearoa.”

Pāmu also contributed to the study, and chief executive Mark Leslie says Mīti is an example of an innovative end-to-end approach driving New Zealand’s methane reduction goals.

 “The benefits of processing the animals within one year avoids challenges associated with wintering and significantly contributes to a lower emissions profile and farming more sustainably. This aligns with our dairy beef strategy to find new markets for surplus calves and meets our goals of lowering methane emissions and supporting a more efficient and sustainable agricultural sector.”

The full study, “Carbon footprint of 10–18 month-old dairy beef production systems”, can be viewed at: https://www.agresearch.co.nz/our-research/carbon-footprint-of-1018-month-old-dairy-beef-production-systems/

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