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Role of Thermoduric and Thermophilic Sporeformers and Their Biofilms in Cheese Spoilage

Investigators
Anand, Sanjeev; Metzger, Lloyd
Institutions
South Dakota State University
Start date
2011
End date
2013
Objective
1. Perform species progression of thermoduric thermophiles and their link to cheese spoilage during industrial Cheddar cheese manufacture process, and whey processing. 2. Determine how thermodurics form biofilms in cheese plants and control strategies. 3. Analyze thermoduric thermophiles of spoiled cheese origin and how they interact with starter cultures. 4. Quantify thermoduric and thermophilic sporeforming bacteria in whey ingredients and determine impact on quality of end-products produced using whey ingredients.
More information
Thermophilic and thermoduric sporeforming bacteria can survive milk pasteurization and resist the chemicals used in general cleaning and sanitation protocols. These organisms have the ability to grow at relatively higher temperatures and produce thermostable enzymes that cause cheese defects such as bitterness, unclean flavor, phenolic flavor, late blowing of cheese, and produce biogenic amines. The regeneration section of pasteurization, hot membranes processing for milk concentration, hot holding retentate tanks prior to renetting, and starter addition are some critical spots that can support the development of bacterial biofilms. Bacillus, Paenibacillus, Micrococcus, Clostridium, Anoxibacillus, Microbactyerium are some of the prominent bacteria involved in forming these resistant biofilms. The objective of this project was to study the progression of thermophilic and thermoduric sporeformers during cheese making and whey processing and develop mechanisms to control undesirable biochemical changes that occur during ripening and storage. Thermoduric and thermophilic sporeformers, and their biofilms, were screened at milk reception, processing, and whey processing stages in commercial cheese plants. Researchers identified 260 thermoduric isolates from their studies on species progression, biofilms, and spoiled cheese. Over 96% of the isolates were from the genus Bacillus, which included 73% Bacillus licheniformis, 17% Bacillus subtilis and 5% Bacillus cereus. The predominant contaminant that survived cheese making and persisted in the final cheese curd was B. licheniformis. Environmental samples were positive for B. licheniformis, B. subtilis, and B. cereus. The major gas producing isolates that caused slit defects in cheese were Lb. fermentum and Clostridium beijerinckii.
Funding Source
Dairy Research Inst.
Categories
Bacterial Pathogens
Bacillus
Commodities
Dairy