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Dairy Nutrition is Leading the Sustainability Charge

Research into reducing greenhouse gas emissions from livestock has increased exponentially as the dairy and agriculture sectors work together toward shared sustainability and efficiency goals. While this progress has been made in all areas of dairy science research, from genetics to animal health and welfare, dairy nutrition has emerged as a particularly impactful area for emission reduction.

In a new invited review in the Journal of Dairy Science, a preeminent voice in sustainability and dairy  synthesizes what we know so far and reveals that new nutrition strategies could potentially slash  by a staggering 60% in the coming years.

Methane (both enteric methane produced during digestion and methane from manure) is the critical greenhouse gas that makes up most of the dairy industry's environmental footprint. The invited review's author, Alexander Hristov, Ph.D., PAS, Distinguished Professor of Dairy Nutrition, Department of Animal Science, The Pennsylvania State University, and recipient of the 2024 Journal of Dairy Science Highly Cited Award explains, "There are two main ways to tackle enteric methane emissions through nutrition: adjusting an animal's diet or adding in specific new ingredients."

Dr. Hristov's review provides an insightful overview of what we know now about both options, where additional research is needed, and which methane-reduction pathways might be most practical and achievable for the future.

The review begins with the latest findings on diet reformulation, including adjusting concentrate feeds, feeding corn versus grass and legume silage, and using alternative forages such as sorghum or plantain. With all of these options available, can diet changes have a real impact on methane emissions? The answer, asserts Dr. Hristov, isn't simple or one size fits all.

Dr. Hristov says, "Diet reformulation depends on a farm's unique scenario to be an effective tool. If a dairy has room for efficiency and productivity improvements, for example, balancing diets can be helpful."

However, this approach is less practical in intensive dairy production systems, where nutritional professionals formulate the diets and producers have efficiency dialed in. In those dairy systems, Dr. Hristov notes, "It may be difficult to find specific feeds that can have a substantial and measurable impact on methane emissions."

That leaves feed additives, new ingredients supplemented in small amounts to a dairy cow's existing diet, to reduce methane produced during digestion. Based on existing research, the most promising additives are seaweeds and 3-nitrooxypropanol (3-NOP).

Red seaweed varieties, for example, contain bromoform, an active compound that has been effective in reducing methane emissions in several studies. Dr. Hristov adds, "Bromoform appears to be able to achieve a 30% to 50% emissions reduction, but whether this effect can be applied broadly and consistently needs more research."

The strongest feed additive contender to emerge is 3-NOP. According to Dr. Hristov, "Its efficacy has been proven in numerous controlled and independent experiments, and 3-NOP is currently the only available option headed to market for dairy operations looking to use additives to reduce emissions."

Dr. Hristov also highlights two areas that could benefit from more research as the dairy sector works to move the sustainability needle forward: reducing methane emissions from cow manure and studying whether nutrition strategies can be paired together synergistically.

Dr. Hristov comments, "In theory, practices with different modes of reducing methanogens could work together to boost overall mitigation."

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