Effect of STAR COW on Enteric Gaseous Emissions and Dairy Cattle Performance


Animal-sourced foods have been under increased scrutiny due to public awareness and concern over environmental impacts. Animal-sourced foods can also improve national agricultural alignment to several U.N. Sustainable Development Goals by providing nutritious food to the population and stable livelihoods for rural communities [1], where the lack of arable land makes it possible only for ruminants to convert non-edible plants into food. Nevertheless, the agricultural livestock sector has been identified for its contributions to greenhouse gas (GHG) production. In the United States, the livestock sector is estimated to contribute 35% of the anthropogenic methane (CH4), 72% of which originates from enteric fermentation and 28% from manure management [2]. At EU level, 53% of anthropogenic methane emissions come from agriculture from which 80.7% are originated from enteric fermentation of ruminant species and 17.4 % from manure management [3]. Several strategies, from changes in feed composition to breeding low methane producing cows, have been investigated. Feed additives are looked at as one of the most promising strategies, although some of them manifested issues, including toxicity to the animal or the environment, short-term effects, or are not yet available to the market due to regulatory constraints. In this work https://www.mdpi.com/2071-1050/12/24/10250, Prof. Mitloehner and his team at UC Davis study the efficacy of STAR COW in reducing enteric GHG emissions and on milk production.

The study was performed on two groups of 10 cows (control and SOP treated) in mid to late lactation for 6 weeks (42 days), the first two of which were considered as adaptation period to STAR COW. GHG emissions were measured for individual cows with head chambers [4] for 12 hours every two weeks. Milk parameters were also analysed in the same day to give a full representation of the cows response to the SOP treatment.

A comparison was made for each group (control and SOP Inside treated cows) along the test days. The analysis of CH4 data showed that the emissions from within the SOP Inside group had a significant decrease from day 14 to day 42 with a reduction of 20.4%. Carbon dioxide CO2 emissions also showed a decrease from day 14 to day 42 (-18.4%), while the emissions from within the control group did not show significant differences over time for neither gas. In addition to that, the treatment with SOP Inside Technology resulted in a significant increase in % milk protein throughout the study period (+4.9% from day 0 to day 14 and +6.5% from day 0 to day 42). Our products have already shown their ability to mitigate GHG emissions from the dairy industry. Two previous studies (Borgonovo et al, 2019, from the University of Milan, https://www.mdpi.com/2071-1050/11/18/4998 and Peterson et al, 2020, again from Prof. Mitloehner’s team at UC Davis, https://www.mdpi.com/2071-1050/12/4/1393 showed the efficacy of LAGOON to reduce GHG and odorous emissions from liquid manure. Due to the gaseous emission reductions, the life cycle assessment (as in Borgonovo et al.), and the ability to improve the nutritional characteristics of milk the integration of SOP Inside into the UN SDG framework for a more sustainable world is recognized and encouraged, especially for SDG2 (Zero Hunger), SDG3 (Health and Well-being), SDG6 (Water quality) and SDG13 (Climate action). The ability of the SOP solution to reduce odorous emissions also allows the farms to mitigate their impact on potential conflicts with the surrounding communities, improving their compliance with SDG11 (Sustainable communities) and SDG17 (Partnership for the goals).