UNL research aimed at swine disease

LINCOLN—Beginning in the spring of 2013, a deadly virus spread quickly throughout the swine industry. The Porcine Epidemic Diarrhea Virus (PEDV) has been reported in over 35 states and is estimated to have an annual economic impact of up to $1.8 billion.

Research conducted by faculty at the University of Nebraska-Lincoln is giving swine producers and veterinarians potential methods to manage and prevent the spread of PEDV.

Manure from a PEDV-positive swine operation is added to soil samples to determine virus survival in manure-amended soils.

PEDV is spread among pigs through the fecal to oral route. It causes severe diarrhea, vomiting and dehydration, typically less than one day following exposure.

While older pigs will experience performance losses once infected with PEDV, the virus carries a nearly 100% mortality rate in pre-weaned piglets. The virus is highly virulent, which makes controlling its spread within and among swine operations particularly challenging.

Veterinarians have speculated that a thimble-full of PEDV could effectively infect all of the state of Iowa’s nearly 20 million pigs, which is roughly one-third of the United States pig population.

“PEDV has a similar effect on older pigs as the stomach flu does on humans. They decrease feed intake, lose weight and are not productive,” said Amy Millmier Schmidt, assistant professor and livestock bioenvironmental engineer in the Department of Biological Systems Engineering. “This loss of productivity equates to an economic loss for the industry as it takes longer for the animals to reach market weight.”

The National Pork Board and Nebraska Pork Producers Association are funding the research of Schmidt and a team at UNL and the USDA Agricultural Research Service.

While previous research has looked at such aspects as disinfection practices for vehicles and equipment, developing a PEDV vaccine or evaluating swine feed as a source of infectious virus, this group focused its efforts on the environmental aspect of PEDV.

One area the group has been investigating is composting carcasses testing positive for PEDV. Burial is common practice with PEDV mortalities, which may be problematic because the virus thrives in cool, moist conditions.

To test whether composting could eliminate the infectious virus, the researchers constructed three compost bins in which PEDV-positive pigs were composted in biosecure rooms on UNL’s East Campus. Sensors were placed inside the compost piles to monitor temperature and organic matter, and water was added to the bins, as needed, throughout two composting cycles. Testing of the compost material at the conclusion of the cycles found no evidence of PEDV.

“Properly handling and disposing of mortalities is a crucial step in reducing the risk of virus transmission,” Schmidt said. “We’re confident that composting is an effective method to dispose of on-farm mortalities and help limit the spread of PEDV when the piles are constructed and managed properly to achieve internal pile temperatures of 120 to 130 degrees.”

Schmidt and her colleagues also looked at adding lime to manure containing the PED virus to determine if a significant pH change in the manure would eliminate the infectious virus.

Results revealed that treating manure with lime to raise the manure pH to 10 for at least one hour will eliminate infectious virus in the manure, though Schmidt suspects that a lower pH may be equally effective.

Another area the team has been looking at is the survival of the virus in soil over the winter following fall manure application.

The team expects to share results of this project in peer-reviewed publications soon, but initial results indicate that the virus is quickly inactivated once manure is introduced into soil having a pH of 7.5 or greater.

The next step for UNL researchers is to confirm their results with on-farm studies. They have received a grant from the USDA Agricultural Food and Research Initiative through the Critical Agricultural Research and Extension program to conduct a series of on-farm studies over the next three years.

The team’s current focus is on demonstrating and promoting disease control and prevention measures on-farm and working with pork producers to create a culture of vigilant preparedness and prevention.

“All business decisions come down to economics so we want to demonstrate that the cost of investing in on-farm biosecurity practices is far less than the costs associated with lost productivity, decontamination, and remediation of a farm following a disease outbreak,” Schmidt said.

For more information on this research, contact Schmidt at (402) 472-0877 or This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Haley Steinkuhler

IANR Media