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Biologically-Derived Polymer Packaging Could Help Food Last Longer

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As consumers seek fewer preservatives in packaged food – while the environment needs less plastic waste – Cornell University scientists are finding ways to make active packaging materials with a biologically-derived polymer that helps salad dressings, marinades and beverages last longer in the fridge.

The new Cornell research will be published in June in the journal Food Packaging and Shelf Life.

“Active packaging gives us a new way to prolong shelf life despite consumer demands for cleaner labels,” said Ian Kay, a doctoral student in food science. “But it’s tricky. Foods and beverages have varying and complex composition, so we need to know a lot about the chemistry of the food and the active packaging to figure out which system works for which foods.”

Joshua Herskovitz, who studied in the laboratory of Julie Goddard, professor of food science in the College of Agriculture and Life Sciences, grafted the corn-derived polylactic acid polymer with the antioxidant nitrilotriacetic acid to use it in food packaging. Kay, following up on Herskovitz’s work, figured out the material’s “interfacial pKa,” which tells you at which pH the foods in this packaging might work to keep from spoiling.

As the antioxidant is bound to the polylactic acid, the preservative can interact with the food but not migrate into it.

“In other words, you get the shelf-life benefit of the preservative without consuming it,” Goddard said. “This allows for cleaner label foods, which consumers are really looking for these days.”

Active packaging technology using bioderived and biodegradable materials, such as polylactic acid offers a way to reduce the two biggest contributors to municipal solid waste, Goddard said.

In 2018, the United States produced 68.13 million tons of food waste and 35.68 million tons of plastic waste, according to the Environmental Protection Agency. That plastic and food combination was 42% of all landfilled municipal solid waste, which contributed significantly to methane and carbon dioxide emissions.

“As a food scientist, I’m excited about new ways to reduce food and packaging waste,” Goddard said. “I’m not anti-preservatives as a whole, we need to remember things we use in the kitchen like heat, salt and lemon juice are important ingredients in food preservation.”

“So if we take preservative out of our food, at the same time, we need to think about the environmental impact if food spoils faster,” Goddard said. “Using a greener active packaging technique, we can extend shelf life while moving closer to a circular plastic economy.”

Goddard, a faculty fellow at the Cornell Atkinson Center for Sustainability, said this is an opportunity to show how this new preservation technology can work, and to address the larger environmental picture of reducing what goes to landfill. “We want to reduce food waste,” she said, “and bring along bioderived materials to do that.”

Reference: Kay IP, Herskovitz JE, Goddard JM. Interfacial behavior of a polylactic acid active packaging film dictates its performance in complex food matrices. Food Packag Shelf Life. 2022;32:100832. doi: 10.1016/j.fpsl.2022.100832


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