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- Title
Microbial Growth and Physicochemical Quality Changes During Modified Atmosphere Storage of High Hydrostatic Pressure Processed Tenebrio molitor Paste.
- Authors
Ojha, Shikha; Rossi, Giacomo; Pathak, Namrata; Durek, Julia; Mahajan, Pramod; Schlüter, Oliver K.
- Abstract
Fresh insects in the form of paste can be conveniently utilised for further food preparations and processing at both household and industrial levels. However, due to the high moisture content and particular physiochemical properties, insect paste is highly unstable and susceptible to significant quality changes during storage. The aim of this study was to evaluate the microbiological and physicochemical stability of high hydrostatic pressure (HHP) treated Tenebrio molitor paste stored at different modified atmosphere packaging (MAP) conditions. Three different MAP compositions and normal air were applied. pH, colour, lipid oxidation, fluorescence spectra and microbiological parameters were evaluated along 28 days of refrigerated storage (4 °C). HHP treatment (600 MPa, 5 min) resulted in a significant reduction in mesophilic aerobic bacteria, anaerobic bacteria and yeast and mould counts. Growth of mesophilic aerobic and anaerobic bacteria remained low for 7 days at 4 °C, regardless of the applied atmospheric conditions, while high microbial growth was observed after 14 days without any significant differences among the treatments. The number of mesophilic spores remained low throughout the entire storage period when MAP was applied, whereas high values were observed after 28 days in the samples stored in normal air. Listeria monocytogenes, Salmonella spp. and Escherichia coli were not detected in any of the samples, nor in the raw paste. Lipid oxidation was initiated by the HHP treatment and displayed an increasing trend during the storage period, although the oxidation levels were lower in the MAP without oxygen compared to the normal air packaging and in MAPs with high O2 or CO2 levels. Fluorescence spectroscopy showed high potential for rapid detection of chemical changes in insect products during processing and storage. Overall, this study showed that MAP can effectively be applied on HHP-treated insect paste to extend its storage period. Absence of oxygen has been identified as a crucial factor in achieving reduced microbial growth and ensuring high physiochemical quality of the final product. Therefore, the present research offers a valuable insight for creating new edible insect-based products within the food industry.
- Subjects
TENEBRIO molitor; HYDROSTATIC pressure; MICROBIAL growth; CONTROLLED atmosphere packaging; AEROBIC bacteria; LISTERIA monocytogenes; FLUORESCENCE spectroscopy; ANAEROBIC microorganisms
- Publication
Food & Bioprocess Technology, 2024, Vol 17, Issue 7, p1914
- ISSN
1935-5130
- Publication type
Article
- DOI
10.1007/s11947-023-03235-6