July 30, 2018

Auburn farmed-oyster study aims for safety on the half shell

farmed oysters air drying for quality

Funded by a new $456,646 federal grant, Auburn marine scientist Bill Walton is investigating how handling techniques, such as air-drying, affect the safety of farmed Gulf oysters.

Auburn University marine scientist Bill Walton, one of the driving forces behind the Gulf Coast’s up-and-coming off-bottom oyster-farming industry, has landed a $456,646 federal grant to help ensure that farmed oysters bound for the premium half-shell market are as safe as possible for human consumption.

The grant, one of 13 competitive food safety awards that USDA’s National Institute for Food and Agriculture has announced as part of its Agriculture and Food Research Initiative, will fund a three-year study to determine whether an oyster farm’s geographic location, handling practices and choice of equipment affect Vibrio levels in farm-raised oysters.

Vibrio are bacteria that occur naturally in warm ocean waters, such as the Gulf of Mexico. Certain Vibrio species, most notably Vibrio vulnificus, can cause foodborne illnesses in people who eat raw or undercooked shellfish.

Through his project, Walton should generate valuable data for Gulf Coast oyster farmers, who focus on producing exceptional oysters for high-end markets, such as upscale restaurants that offer the farmed bivalve mollusks on the half shell.

“Our findings will help farmers understand and manage their preharvest production techniques to minimize the risk of foodborne illness in consumers,” said Walton, extension specialist and School of Fisheries, Aquaculture and Aquatic Sciences associate professor. “These folks absolutely want to provide the safest product they can, so this is critical information for these farmers.”

To achieve the superior product the market demands, farmers grow their oysters in underwater baskets or cages that float above the ocean floor. Once a week, they raise the baskets out of the water and allow the oysters to air-dry. That practice prevents barnacles, seaweed and other undesirable organisms from attaching to and marring the oysters.

Though the air-drying is process is crucial to product quality, it is not risk-free, said Vicki Pruente, an Auburn doctoral student assisting Walton on the project.

“The frequent handling exposes the oysters to elevated air temperatures and also interrupts filter feeding, and those conditions cause Vibrio levels to rise,” Pruente said.

Once the baskets are lowered back into the ocean, Vibrio levels gradually subside, but questions remain, Walton said.

“In our trials, we will look at how long after the oysters are resubmerged the Vibrio levels return to naturally occurring levels,” he said. “Our results will help farmers as they evaluate their production techniques.” 

To establish the impact of geographic location on Vibrio levels, Walton and Pruente will conduct the research simultaneously at the Auburn University Shellfish Lab’s oyster research farm in Grand Bay, Alabama, and at a farm in Cedar Island, North Carolina.

Contact

OFFICE OF AG COMMUNICATIONS & MARKETING
Auburn University College of Agriculture
Alabama Agricultural Experiment Station
3 COMER HALL
AUBURN, AL 36849
334-844-2783 (PHONE)
agcomm@auburn.edu