Abstract

Worldwide, the dairy sector remains of vital importance for food production despite severe environmental constraints. The production and handling conditions of milk, a rich medium, promote inevitably the entrance of microbial contaminants, with notable impact on the quality and safety of raw milk and dairy products. Moreover, the persistence of high concentrations of microorganisms (especially bacteria and bacterial spores) in biofilms (BFs) present on dairy equipment or environments constitutes an additional major source of milk contamination from pre- to post-processing stages: in dairies, BFs represent a major concern regarding the risks of disease outbreaks and are often associated with significant economic losses. One consumption trend toward “raw or low-processed foods” combined with current trends in food production systems, which tend to have more automation and longer processing runs with simultaneously more stringent microbiological requirements, necessitate the implementation of new and obligatory sustainable strategies to respond to new challenges regarding food safety. Here, in light of studies, performed mainly with raw milk, that considered dominant “planktonic” conditions, we reexamine the changes triggered by cold storage alone or combined with nitrogen gas (N2) flushing on bacterial populations and discuss how the observed benefits of the treatment could also contribute to limiting BF formation in dairies.

Highlights

  • Reviewed by: Ievgeniia Ostrov, Rutgers, The State University of New Jersey, United States Md Furkanur Rahaman Mizan, Chung-Ang University, South Korea

  • To preserve the quality and safety of raw milk, two options are recommended: in low-income countries, the activation of the lactoperoxidase system (LPS) is used to prevent excessive bacterial growth (FAO, 2005)

  • By considering an “open system” somehow more realistic considering dairy equipment, a pure N2 gas flushing-based technology was devised and tested: briefly, sterile-filtered N2 gas is continuously flushed through the headspace of a milk-containing vessel (MunschAlatossava et al, 2010c,b; Alatossava and Munsch-Alatossava, 2018)

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Summary

Introduction

Reviewed by: Ievgeniia Ostrov, Rutgers, The State University of New Jersey, United States Md Furkanur Rahaman Mizan, Chung-Ang University, South Korea.

Results
Conclusion

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