(Phys.org) —University of Florida scientists believe they have pinpointed the exact compounds in strawberries that give the fruit its delightfully unique flavor – findings that will allow UF breeders to create more flavorful varieties even faster.

What's more, the researchers believe that eventually, those naturally occurring compounds will be used to make processed foods taste sweeter, using far less sugar and no . And if fruits and vegetables taste better, people will be more likely to eat them, the researchers say.

After looking at 35 strawberry varieties over two growing seasons, conducting extensive biochemical testing and hosting consumer taste panels, they identified 30 compounds directly tied to strawberry flavors that consumers adore.

And they also identified six that add to humans' perception of sweetness in the fruit – independent of any type of sugar contained in the fruit.

Those six volatiles add to the growing portfolio of sugar-independent, flavor-enhancing compounds found in fruits, vegetables and herbs that UF Institute of Food and Agricultural Sciences researchers are zeroing in on.

The researchers are part of the Plant Innovation Program, a group of about 45 UF/IFAS scientists conducting research in plant science and human sensory analysis, with a goal of helping people live and eat more healthfully.

The team's recent work was outlined in a paper published online by PLoS One Feb. 11.

Thomas Colquhoun, an assistant professor in environmental horticulture, said the group has a full pipeline of research projects and expects similar findings in the next few years for important Florida crops such as blueberries, peaches and various herbs.

"You can envision that every time we're looking at a crop, we're getting a new, exciting chance to be able to add one little piece to that flavor puzzle," Colquhoun said. "So we're just running right down the list of Florida-important crops, and we're picking up different aspects of the flavor sensation itself, in each one."

Michael Schwieterman, a postdoctoral researcher and the paper's lead author, said the six sugar-independent volatiles are some of the group's top "targets of interest."

While the ability to corral those volatiles and use them to make more flavorful, less-sugar-enhanced foods may be in the future, he said the group's traditional plant breeders are using the findings to create consumer-preferred flavors now.

The latest study also looked at seasonality – or changes in the berries' chemical makeup depending on where it is in the growing season – so UF/IFAS can now use the information to select plants that keep premium flavor throughout the season, he said.

"So when we find these specific volatiles, it will help us produce cultivars that we know have a good chemical profile and should be perceived as much sweeter, with better flavor," Schwieterman said.

Journal information: PLoS ONE

Provided by University of Florida