Fluid milk consumption per capita in the United States has been steadily declining since the 1940s. Many factors have contributed to this decline, including the increasing consumption of carbonated beverages and bottled water. To meet the challenge of stemming the decline in consumption of fluid milk, the dairy industry must take a systematic approach to identifying and correcting for factors that negatively affect consumers' perception of fluid milk quality. To that end, samples of fluid milk were evaluated to identify factors, with a particular focus on light-emitting diode (LED) light exposure, which negatively affect the perceived sensory quality of milk, and to quantify their relative effect on the consumer's experience. Fluid milk samples were sourced from 3 processing facilities with varying microbial postprocessing contamination patterns based on historical testing. The effect of fat content, light exposure, age, and microbiological content were assayed across 23 samples of fluid milk, via consumer, descriptive sensory, and instrumental analyses. Most notably, light exposure resulted in a broad negative reaction from consumers, more so than samples with microbiological contamination exceeding 20,000 cfu/mL on days approaching code. The predominant implication of the study is that a component of paramount importance in ensuring the success of the dairy industry would be to protect fluid milk from all sources of light exposure, from processing plant to consumer.
Consumers should have confidence that dairy foods are safe to eat. The Food Safety Committee of the Innovation Center for US Dairy (IC), created in 2010 to help processors collectively improve practices and reduce risks in dairy foods, is an industry-wide food safety collaboration that aims to protect the public through its mission to "Strengthen manufacturing practices in all dairy processing facilities and advance science-based tools to diminish food safety risks that could compromise the reputation of the U.S. dairy industry." The IC Listeria Research Consortium, a subset of the IC Food Safety Committee, funds research directed at creating new tools and practices to control Listeria in finished products and in manufacturing plants. This synopsis summarizes a presentation on the work conducted by the IC Food Safety Committee and research funded by the IC Listeria Research Consortium that was part of a symposium highlighting recent scientific findings and potential practical approaches to better control Listeria using science-based tools.
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