Particulate matter annual emission factors for dairy facilities and cattle feedlots of Texas, USA

Abstract

The direct emission of inhalable particulate matters (PM2.5 and PM10) from agricultural sources imposes major concern to human health. It is imperative to keep regular update of the pollutant emissions to scrutinize the sources and take necessary preventive measures. Two representative animal feeding operations, one dairy and one feedlot of Texas were selected during the year 2021 for summer and winter sampling using programmable Federal Reference Method (FRM) samplers and Texas A&M University (TAMU) designed samplers. Additionally, for quick and simple emission concentration determination, handheld particle counters were utilized parallel to the FRM and TAMU designed samplers. The air quality index showed that the PM2.5 pollutant fell into ‘Moderate’ category for about 20.93% times and 13.89% times in the dairy and the feedlot respectively. The maximum mean of daily PM10 concentration observed in the Feedlot during the summer was 1676.3 μg/m3 which can be aggravating. The correlation developed using the emission data from the FRM and handheld samplers demonstrated linear relationship and 0.66 of goodness of fit. During the summer, maximum mean PM2.5 emission factors (EF) of 0.84 kg 1000 hd−1 d−1 and 8.09 kg 1000 hd−1 d−1 were determined for the dairy and for the feedlot respectively. However, the winter and the summer PM10 EF for the dairy did not differ significantly (P > 0.05). Although there has not been enough record of PM2.5 annual EF, the current study PM10 annual EF was benchmarked with some of the previously published EFs. This investigation on the air pollutant EFs from the animal feeding operations can greatly benefit in preventing the pollution and updating the most recent EFs. However, continuous monitoring and further research are suggested to improve data quality and develop strategic management practices.