Increasing frequency and size of wildfires in the United States over the past several decades affect everything from human life and health to air quality, biodiversity, and land use. The US dairy industry is not exempt from these effects. The Western states, where wildfires are especially prevalent, are home to more than two million dairy cows that produce more than 25% of the nation's milk. A new report in the Journal of Dairy Science examines how dairy cattle in the Western United States may be affected by unique air pollutants from wildfire smoke.
Lead investigator Amy L. Skibiel, Ph.D., of the University of Idaho Department of Animal, Veterinary and Food Sciences (Moscow, ID, U.S.), points out that "Evidence suggests that wildfire smoke events can result in substantially greater exposure to harmful compounds than typically found in non-fire urban air pollution conditions."
Smoke from wildfires contains fine particulate matter, a known air toxin and a leading source of air pollution-related disease in humans. "Fine particulate matter can be respired deep into the alveolar recesses of the lungs, where it can induce inflammation, impede lung function, and be absorbed into circulation," Skibiel explains. However, the physiological responses of dairy cows to fine particulate matter from wildfire smoke have so far been largely unknown.
The research team observed a group of Holstein cows in Idaho throughout the 2020 Pacific Northwest fire season (July to September). The cows were exposed to ambient air quality, temperature, and humidity, and the researchers monitored milk yield and tested blood for health status indicators. Based on the team's defined thresholds for smoke exposure, cows were exposed to wildfire-derived particulate matter for seven consecutive days in mid-September, at levels 10 to 23 times the US Environmental Protection Agency's 24-hour average air quality limits.
During the seven-day period of smoke exposure, cows produced less milk, which also persisted for seven days post-exposure. Higher air temperature and humidity, combined with greater levels of fine particulate matter, altered protein and fat metabolism and reduced immune cell populations in the cows' blood. The balance of essential minerals in the blood was also altered with the combination of increased temperature and humidity along with high levels of fine particulate matter—possibly due to perspiration or to the body's stress responses. The team note that further research is required to understand the causes and consequences of electrolyte imbalance with exposure to fine particulate matter.
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