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Modified atmosphere packaging for poultry meat: impact on microbiota and odour characteristics
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Specific packaging conditions such as a modified atmosphere can have a tremendous effect in delaying the proliferation of food spoilage microorganisms and, consequently, increasing the shelf life of products and reducing food waste. To evaluate the impact of different packaging atmospheres on the microbial load and microbiota of poultry meat, chicken breasts packed in high oxygen-containing packages (55-70% O2, 20-30% CO2) and in high carbon dioxide-containing packages (0% O2, 50-55% CO2, 45-50% N2) were collected from the producer (day 0) and stored at 4 ºC. At specific time points, total viable counts (TVC) were enumerated in Plate Count Agar and DNA extraction was performed using Qiagen DNeasy PowerLyzer Powersoil kit. Microbial community analysis was performed using EMP 16S Illumina Amplicon Protocol V.2. Olfactory sensory evaluation of the samples was also conducted by a group of semi-trained panellists. The TVC in chicken breasts at the beginning of the storage (day 0) were similar for both atmospheres (around 3.7 log CFU/g). After 15 days of storage, the TVC were also comparable in breasts from both packaging atmospheres (approximately 8.0 log CFU/g), having increased at a maximum rate of 0.6 ± 0.1 log CFU/g day -1 (high O2 packages) and 0.5 ± 0.04 log CFU/g day -1 (high CO2 packages). Throughout storage at 4 ºC, the gas composition of high CO2 packages was stable, with fluctuations of around +5% in CO2 content between the beginning and the end of the storage period. In turn, the high O2 packages revealed a decrease in O2 content and an increase in CO2 (both around 15%), thus indicating the presence and proliferation of oxygen- consuming spoilage microorganisms in this type of atmosphere. However, this effect must be analysed together with the gas transfer through the package. As revealed by the microbial community analysis, there was a clear change in the microbial composition resulting from the different packaging conditions. A considerable decrease in the relative abundance of Brochothrix and an increase of Lactobacillales (mainly Carnobacterium divergens), Lactococcus spp. and Lactobacillus spp. was observed with high CO2 packaging. The relative amount of Yersiniaceae (often Serratia proteamaculans) was relatively similar for both high O2 and high CO2 packages. The presence of distinct microbial communities triggered by the different packaging atmospheres appears to have a considerable impact on the olfactory characteristics of the chicken breasts, as revealed by the results of the semi-trained panel. The overall odour intensity of chicken breasts packed under high O2 atmosphere was somewhat similar from day 0 up to day 7 of storage, and after 11 and 15 days, the semi-trained panellists indicated higher overall odour intensity, and the presence of aromas related to product degradation. This was also observed for chicken breasts packed under high CO2 atmosphere, but only after 19 days of storage, and the overall odour intensity was fairly similar from day 0 up to day 12. These results suggest an improved perception of chicken freshness for a longer period, which may be a valuable outcome for extending the shelf life of this product.
Descrição
Palavras-chave
Gas composition MAP Microbial load Microbiota Shelf life
Contexto Educativo
Citação
Silva, B. N., Ferreira, R. M., Monteiro, M. J., & Moen, B. et al. (2024). Modified atmosphere packaging for poultry meat: impact on microbiota and odour characteristics. 1-1. Abstract from 2º Simpósio INIAV para a Segurança Alimentar- “Sistemas Alimentares Sustentáveis e Seguro”, Vila do Conde, Portugal, Vila do Conde, Portugal.