Seaweed trumps bromoform for busting methane

When it comes to reducing livestock methane emissions, Asparagopsis seaweed is more powerful than a bromoform-only supplement, according to a new study.

The bromoform found in Asparagopsis is known for its anti-methanogenic properties in ruminant animals such as cattle. However, this latest peer reviewed research, ‘The anti-methanogenic efficacy of Asparagopsis taxiformis: Could it be attributable solely to its bromoform content?’ (Ahmed et al, 2024), has demonstrated that other bioactive compounds found in Asparagopsis biomass contribute significantly to its world-leading efficacy.

The anti-methanogenic effect of Asparagopsis biomass in livestock feed was shown in vitro to be 36 - 40% greater than that of bromoform alone.

“We’ve known for several years that the inclusion of correct levels of Asparagopsis in a ruminant livestock diet leads to a substantial decrease in methane production, with reductions of more than 80% repeatably achieved,” FutureFeed CEO Alex Baker said.

It has been widely believed that the bromoform present in the seaweed biomass was responsible for this remarkable anti-methanogenic effect, prompting some groups to consider the use of synthetic or extracted bromoform.

“This latest study provides a comprehensive understanding of the mechanisms behind the efficacy of Asparagopsis, emphasising the combined effect of bromoform and other bioactive compounds. This study is another useful data-point to support the benefits of Asparagopsis, and we commend CH4 Global, a FutureFeed licensee, who helped support this analysis”, Mr Baker said.

The researchers conducted a series of experiments to isolate and identify the active compounds responsible for methane reduction. The results indicate that the methane-reducing potential of Asparagopsis is not solely due to bromoform but is likely a result of a synergistic effect of multiple bioactive compounds.

Key findings:

• The anti-methanogenic potential of Asparagopsis taxiformis biomass is significantly more powerful (36-40%) than that of bromoform alone.

• Bromoform was found to be the strongest anti-methanogenic compound in the seaweed. However, the role of bioactive compounds other than bromoform in Asparagopsis biomass is significant.

• The biomass and bromoform had no negative impacts on rumen fermentation in vitro.

Along with a decade of peer reviewed studies in this area, these latest findings underscore the potential of Asparagopsis as the most powerful tool available for mitigating livestock methane emissions.