Beef + Lamb New Zealand (B+LNZ) Genetics has launched a “methane research breeding value”. Breeding value (BV) is a term used to help select important traits that ram breeders want to bolster within their flock (e.g. low methane-producing animals).
The launching of this significant breeding tool is thanks to a 10-year multi-million dollar collaboration between the Pastoral Greenhouse Gas Research Consortium (PGGRC), New Zealand Agricultural Greenhouse Gas Research Centre (NZAGRC) and AgResearch, supported by the Ministry of Business, Innovation and Employment and Ministry for Primary Industries.
Ram breeders wanting to pursue the methane breeding value will need to measure a portion of their flock using Portable Accumulation Chambers. These chambers are onboard an AgResearch-operated trailer, which travels to individual farms. Sheep spend 50 minutes in the chambers, where their gas emissions are measured. This happens twice, at a 14-day interval. The resulting information is then used alongside other genetic information to calculate the methane breeding value.
King Country stud breeder Russell Proffit’s family has been producing rams for 40 years. Twenty years ago, Raupuha Stud began breeding lower-input sheep – that is sheep that were naturally able to stave off common health ailments and required less interventions.
“I’ve undertaken the Methane BV measurements because I believe an animal that is healthy and doing well should produce less methane and I wanted to test that. I don’t know if that’s the case yet, but either way breeding for less methane complements what we are working to achieve on our stud. That is, more robust rams that require less inputs and make less demand on the environment.”
Mr Proffit says his commercial farmer clients have already expressed interest in the Methane breeding value. “Farmers are more interested that I anticipated. They are thinking about this issue and looking for ways to make progress.”
B+LNZ chief executive Sam McIvor says this interest was reinforced in recent B+LNZ research of 1000 farmers, where tools and information to reduce greenhouse gas emissions were among farmers’ top five on-farm priorities.
Interested farmers will have access to rams within two years – the time it will take to breed and grow rams on a commercial scale.
PGGRC general manager Mark Aspin says the new breeding value takes advantage of the fact individual sheep vary in their levels of methane emission and these differences are passed on to the next generation.
“This is a global first for any species of livestock. Launching the methane breeding value gives New Zealand’s sheep sector a practical tool to help lower our agricultural greenhouse gases. This is significant. Up until now, the only option available to farmers wanting to lower their greenhouse gas emissions has been to constantly improve their overall farming efficiency.
“This takes us a step further – towards actually lowering sheep methane emissions, in keeping with the sector’s commitment to work towards reducing its greenhouse emissions.”
Although progress via breeding can be slow – around 1 per cent per year, assuming a breeder was selecting only for methane – it is cumulative and has no negative impact on productivity.
Mr Aspin says it is important to note that the biggest influence on methane emissions is the amount of feed an animal eats. “To that end, the consortium is working on another three technologies, with a focus on reducing the amount of methane generated by feed. So, by breeding sheep that produce less methane per mouthful eaten – as other methane-reducing technologies come on stream – the influence of these sheep on the national flock’s methane production becomes compounding.”
For more information, contact Mark Aspin (General Manager, PGGRC), 027 248 3509 or firstname.lastname@example.org
The PGGRC was established 16 years ago to provide the knowledge and tools New Zealand farmers would need to mitigate greenhouse gas emissions. It is funded by eight New Zealand agricultural sector partners, via a 50:50 partnership with the Ministry of Business Innovation and Employment (MBIE) and works in collaboration with the New Zealand Government through the NZAGRC.
PGGRC’s four methane-reducing technologies:
- Two technologies target the rumen microbes responsible for producing methane:
- Methane-reducing compounds delivered by rumen capsule, with a goal of 30% reduction in methane; and
- Development of a vaccine that targets these microbes.
- Potentially, greater use of specific forage crops, and
- The Methane breeding value – only available for sheep as a research breeding value at this point, but has potential to work for cattle and deer, in time.
- Methane is a potent greenhouse gas.
- In New Zealand, 80% of our methane (around a third of all our greenhouse gases (GHG)) comes from grazing livestock.
- The New Zealand Government has committed to the Paris agreement, which was signed by 197 countries in 2016 and comes into force in 2020. The agreement aims to limit global warming to less than 2.0oC and preferably 1.5oC. To achieve this, countries have committed to reducing all GHG through nationally-determined contributions (NDC). New Zealand’s agricultural component is being driven via the recently-passed Zero Carbon Act.
- Breeding can be used to lower methane emissions on farm, because differences in methane emissions between individual sheep are passed on to the next generation with a moderate level of heritability. Although progress is slow (around 1% per year with single trait selection), it is cumulative and to date no detrimental associations with production or health traits have been found.