Combined Effects of Carbon Dioxide Addition and Barrier Films on Microbial and Sensory Changes in Pasteurized Milk

¹ Institute of Food Science, Stocking Hall, Cornell University, Ithaca, NY 14850

The growth of psychrotrophic microorganisms is an important factor in the deterioration of refrigerated pasteurized milk. Dissolved CO₂ inhibits certain spoilage microorganisms in foods provided that the packaging offers a sufficient barrier to CO₂ evolution. The objectives of this work were, first, to estimate the sensory threshold for dissolved CO₂ in 2% milk and, second, to determine the relationship between microbial growth and package barrier properties for pasteurized milk to which CO₂ had been added at concentrations near the flavor threshold. The sensory threshold, as determined by a trained panel, for CO₂ in 2% pasteurized milk was >2.8 mM and <9.1 mM. Pasteurized milk was inoculated with a cocktail of spoilage microorganisms, packaged in different barrier film pouches, and stored at 6.1°C for up to 28 d. The addition of CO₂ at concentrations of 8.7 and 21.5 mM increased the time needed to reach 10⁶ cfu/ml from 6.4 d (no CO₂) to 8.0 and 10.9 d, respectively, in low barrier pouches. In high barrier pouches, the time needed to reach 10⁶ cfu/ml was increased to 9.7 and 13.4 d, respectively, at CO₂ concentrations of 8.7 and 21.5 mM. This increase represents an increase in shelf-life of approximately 25 to 200%. Microbial counts had longer lag times and lower growth rates and took longer to reach stationary growth as the concentration of CO₂ increased in all films than did the control milk. The control milk curdled in less than 17 d, but the test milk in the high barrier packaging had not curdled at 28 d. These data suggest that the shelf-life of pasteurized refrigerated milk could be extended by at least 25 to 200% at CO₂ concentrations near the sensory threshold. The major variables in shelf-life are the amount of added CO₂ and the barrier properties of the package.

Key Words: milk • shelf-life extension • carbon dioxide

Submitted on November 10, 1997
Accepted on October 19, 1998

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