UNIVERSITY PARK, Pa. — Farming is among the most dangerous work environments in the U.S., with higher fatality rates than emergency responders, according to the National Education Center for Agricultural Safety. Among the factors that contribute to farming’s risk profile is the potential presence of toxic gases associated with manure storage facilities.
In 2012, two young boys were knocked unconscious near their family’s dairy manure storage, prompting Penn State Extension to take action. To prevent future incidents during manure agitation, Extension formed a partnership with two companies and USDA’s Natural Resources Conservation Service, seeking to identify the cause of the accident and implement measures to avoid similar incidents.
These efforts appear successful. As manure storage emptying season approaches, Penn State researchers seek to reinforce the message that increased awareness of manure gas dangers saves lives.
In the year prior to the incident with the two boys, fatalities on other dairy farms occurred during manure agitation, which surprised researchers at Penn State, including Eileen Fabian, professor of agricultural engineering and environmental biophysics in the Department of Agricultural and Biological Engineering. The manure storages were open-air and uncovered, which would seem to limit the risk of manure gas exposure compared to closed, covered or confined manure storages.
“A possible clue was the use of gypsum bedding in the dairy cow barn,” Fabian explained. “Recycled gypsum has become a popular bedding material for the dairy industry due to its affordability, high moisture absorption, low bacteria growth and soil benefits. But if gypsum, which contains sulfate, ends up in low-oxygen manure-storage facilities as soiled bedding, it can turn into a dangerous gas during agitation.”
Demonstration trials at 10 dairy farms in 2014-15 showed that dangerous levels of hydrogen sulfide gas during manure agitation likely contributed to farm incidents and fatalities. This project revealed limited awareness among dairy farmers about the increased release of dangerous manure gas during agitation, particularly high levels of hydrogen sulfide gas due to sulfur compounds in manure slurry from gypsum bedding, poor water quality or other sources.
The driving force behind much of this data collection was Michael Hile, who now directs the Penn State Odor Assessment Laboratory. His doctoral work in agricultural and biological engineering was instrumental in generating project results and informing extension efforts.
Hile and other experts in agricultural engineering, farm safety and air quality at Penn State collaborated to communicate the dangers of hydrogen sulfide gas released from liquid manure containing gypsum. Outreach products, for both local and national audiences, included field days, outreach to media, conference presentations, fact sheets and peer-reviewed journal articles.
Collaboration between academic, business and government entities was crucial to the success of the project, the researchers noted. Companies such as USA Gypsum and Industrial Scientific provided expertise and partial sponsorship, while the 10 dairy farms provided real-world insight. The involvement of these companies, along with the Natural Resources Conservation Service, allowed for wider dissemination of the project’s findings to the dairy industry.
National events for professional manure haulers provided venues to increase awareness of the dangers during agitation and promote the use of instrumentation. Laboratory trials revealed ways to lessen hydrogen sulfide release from manure containing gypsum, but at a higher cost. One gypsum bedding supplier currently recommends using modest levels of gypsum bedding in a mixture with conventional bedding. The Natural Resources Conservation Service quickly incorporated project findings in their bulletins and fact sheets, promoting safe manure storage and agitation practices.
In the long term, the project has led to heightened awareness of the dangers of sulfur in manure and the need for caution during agitation. Although she can’t prove a connection, Fabian said she believes this project likely contributed to the lack of recent incidents during gypsum-manure agitation.
“No additional deaths from gypsum-laced manure storage agitation have been recorded in Pennsylvania since the project’s findings were widely circulated,” she said.
Additional resources related to gypsum-bedding and manure-storage gas emissions are available on a Penn State Extension gypsum-bedding webpage. Extension also offers safety guidelines to minimize the risk of injury or death around manure-storage facilities:
— Ensure that anyone who needs to be near manure-storage structures is aware of the potential hazards, including the effects of different gases. Particularly, hydrogen sulfide is dangerous at low concentrations and, being heavier than air, will stay or flow downward.
— During manure agitation, prevent access to low-lying areas next to the structures and consider a buffer zone of at least 20 feet around the structure.
— Keep children away from hazardous farm operations, as even low concentrations of toxic gases can harm them.
— Bystanders and nonessential workers should stay clear during agitation and manure pump-out operations.
— Be aware that dangerous levels of toxic gases can push up through slotted floors into animal housing when agitating manure storages located below animal living areas. Ensure these areas are well-ventilated before and during agitation. In some cases, people and animals may need to be removed.
— If you need to be near agitated spaces, consider wearing a portable gas detector to receive an early warning if toxic gas is present. These detectors are relatively inexpensive and sound an audible alarm upon detection of dangerous levels.