Ammonia emissions and their key influencing factors from naturally ventilated dairy farms

Ammonia (NH3) contributes several adverse impacts to the environment, especially the crucial role of PM2.5 precursors. In China, approximately 13.5% of the total NH3 emissions from agricultural activities are related to dairy cows farming. The goals of this study were to define NH3 emissions, localize emission factors, and clarify relationships between NH3 emissions and potential influencing factors from dairy farms. The measurements were carried out in three typical naturally ventilated dairy farms with different scales, floor materials and manure managements over four seasons. Results showed that NH3 emission rate from all areas changed in the range of 0.01-2.96 mg min(-1) m(-2) in the three farms. NH3 emission factors ranged from 5.21 to 38.10 kg a(-1) cow(-1) with the outdoor exercise area as the largest contributor. The variation of NH3 emissions in the three farms was consistent and positively related to ambient temperature (R-2 > 0.8, p < 0.01). Strong relationships (p < 0.01) between NH3 emissions and relative humidity were found only in outdoor exercise and sedimentation tank of Farm A and manure storage of Farm B. The NH3 emission rates were dependent on floor material and the frequency of manure collection. However, the effect of manure collection methods on NH3 emissions was insignificant. Results from this study provide accurate data to improve the atmospheric pollutant emission inventories, and clarify the impact of different influencing factors on NH3 emissions from livestock farms.

Automated summary

The study found significant variations in NH3 emission rates across different areas of the dairy farms, primarily influenced by ambient temperature, with the outdoor exercise area being the main contributor to NH3 emissions. Strong relationships between NH3 emissions and relative humidity were found in some areas, with NH3 emission rates depending on floor material and manure collection frequency.