Bright LED dairy cases speed off-flavors in skim milk

LED lighting assumed to be less damaging to milk due to its lower power consumption, but that appears to be incorrect.

January 30, 2018

2 Min Read
milk in dairy case grocery store
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As grocery stores save energy by changing their dairy cases from fluorescent to light-emitting diode (LED) lighting, Cornell researchers have found that milk — particularly skim, or fat-free, milk — becomes more susceptible to off-flavors from LED light than from standard fluorescence.

To battle bad taste, dairies and grocery stores should consider moving away from plastic packaging that allows light infiltration, the food scientists reported in the January issue of the Journal of Dairy Science.

LED lighting was always assumed to be less damaging to milk due to its lower power consumption, said Robin Dando, assistant professor of food science and a co-author on the research. That assumption seems to be wrong.

“LEDs look good, save retailers money and keep carbon from damaging the environment,” Dando said. “It’s less energy, and we assumed it would be less light energy being channeled into the milk, too, but that’s not what we found. The light still really affects the flavor.”

Dando and co-author Ana C. Chang, now a Cornell doctoral student in nutritional sciences, brought in trained tasters and untrained consumers to compare milk from dairy cases with LED and fluorescent lighting.

Taste-testing panels noted that LED light impairs fresh flavor properties more than fluorescents. An earlier study also said the taste of skim milk is more affected than 2% fat milk; the researchers believe fat offers protection from the light by either making it harder for the light to reach riboflavin and other photosensitive compounds or giving the milk a flavor of its own that slightly masks the off-note.

“The consumers did not like the slight off-flavor from the light in the 2% milk, but they really didn’t like it in fat-free skim milk. It changed much more noticeably,” Dando said.

“We were surprised that LED may be causing sensory changes earlier than fluorescent light,” Chang added. “There has been more research on fluorescent light, but there isn’t much in the literature on LED. We wanted to see the difference between them.”

The researchers found light-protective packaging offered nearly complete protection from LED exposure, with a similar flavor profile as milk unexposed to light. However, consumers disliked such packaging’s appearance, likening it to orange juice jugs.

Why does flavor change in the presence of light? Dando speculated that riboflavin and residual chlorophyll in the milk absorbs energy from light and can release it into the milk, causing changes to proteins and fats that may have off-putting flavor consequences.

The paper, “Exposure to Light-Emitting Diodes May Be More Damaging to the Sensory Properties of Fat-Free Milk Than Exposure to Fluorescent Light,” was funded by the U.S. Department of Agriculture’s National Institute of Food & Agriculture.

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