Effect of bactofugation of raw milk on total bacterial and aerobic spore counts and on microbial diversity of sporeformers
DOI:
https://doi.org/10.5433/1679-0359.2022v43n3p1187Keywords:
Bactofuga, Genetic variability, Shelf life, Spores.Abstract
This study describes the effect of bactofugation (10,000 × g in a continuous flow of 10,000 L/h) of three batches of raw milk on total bacterial count (TBC) and aerobic spore count, and it also shows the effect on the microbial diversity of spore-forming bacteria by analysing their genetic variability through molecular approaches. Given that milk must be preheated to approximately 55 °C before being bactofuged, for comparison, the three batches were evaluated at different stages as refrigerated raw, preheated, and bactofuged milk. For preheated milk, it was found that bactofugation caused a significant reduction (p < 0.05) of 99.52% (from 4.5 × 106 to 2.1 × 104 CFU/mL) in the mean TBC and of 95% (from 333 to 17 CFU/mL) in the aerobic mesophilic spore count. Due to the effect of bactofugation on preheated milk, a reduction of 82% was observed in both TBC and aerobic spore count. With respect to diversity, 107 isolates from raw milk, prior to bactofugation, and 16 isolates from bactofuged milk were recovered and grouped into 40 and 8 clusters, respectively. The predominant species detected in raw and preheated milk were Bacillus toyonensis (63% - 20 clusters) and Lysinibacillus fusiformis (15% - 8 clusters). Proportionally, B. toyonensis (69% - 6 clusters) and L. fusiformis (25% - 1 cluster) were predominant in bactofuged milk. B. pumilus, L. varians, B. flexus, B. invictae, and B. megaterium, bacteria with a known milk spoilage potential, were isolated from milk prior to bactofugation, and they reduced to undetectable levels in bactofuged milk. Bactofugation of milk, therefore, reduces the TBC and aerobic spore count, with a significant effect in reducing the microbial diversity of spore-forming bacteria, proportional to their incidence in raw milk. Therefore, bactofugation can be an alternative to increase the shelf life and technological potential of milk.Metrics
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References
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Ribeiro, J. C. Jr., Tamanini, R., Soares, B. F., Oliveira, A. M. de, Silva, F. G., Silva, F. F. Beloti, V. (2016). Efficiency of boiling and four other methods for genomic DNA extraction of deteriorating spore-forming bacteria from milk. Semina: Ciências Agrárias, 37(5), 3069-3078. doi: 10.5433/1679-0359.2016v37n5 p3069
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Stack, A., & Sillen, A. (1998). Bactofugation of liquid milks. Nutrition & Food Science, 98(5), 280-282. doi: 10.1108/00346659810224217
Torres-Anjel, M. J., & Hedrick, T. I. (1971). Spore removal by centrifugation and its effect on ultra-high temperature commercial sterilization of milk. Journal of Dairy Science, 54(3), 326-330. doi: 10.3168/jds. S0022-0302(71)85837-X
Tortora, G. J., Funke, B. R., & Case, C. L. (2007). Microbiology: an introduction. San Francisco, CA: Pearson Benjamin Cummings.
Yuan, D. D., Liu, G. C., Ren, D. Y., Zhang, D., Zhao, L., Kan, C. P.,… Zhang, L. B. (2012). A survey on occurrence of thermophilic bacilli in commercial milk powders in China. Food Control, 25(2), 752-757. doi: 10.1016/j.foodcont.2011.12.020
Coorevits, A., De Jonghe, V., Vandroemme, J., Reekmans, R., Heyrman, J., Messens, W., & Heyndrickx, M. (2008). Comparative analysis of the diversity of aerobic spore-forming bacteria in raw milk from organic and conventional dairy farms. Systematic and Applied Microbiology, 31(2), 126-140. doi: 10.1016/j. syapm.2008.03.002
Faccia, M., Mastromatteo M., Conte, A., & Del Nobile, M. A. (2013). Influence of the milk bactofugation and natural whey culture on the microbiological and physico-chemical characteristics of mozzarella cheese. Journal of Food Processing & Technology, 4(4), 1-7. doi: 10.4172/2157-7110.1000218
Farkye, N. Y. (2004). Cheese technology. International Journal of Dairy Technology, 57(5), 91-98. doi: 10. 1111/j.1471-0307.2004.00146.x
Frank, J. F., & Yousef, A. E. (2004). Tests for groups of microorganisms. In H. M. Wehr, & J. F. Frank (Eds.), Standard methods for the examination of dairy products (7nd ed., pp. 281-292). Washington, DC: American Public Health Association.
Gésan-Guiziou, G. (2010). Removal of bacteria, spores and somatic cells from milk by centrifugation and microfiltration techniques. In M. W. Griffiths (Ed.), Improving the safety and quality of milk: milk production and processing (pp. 349-372). Sawston: Woodhead Publishing.
Huang, Y., Flint, S. H., Yu, S., Ding, Y., & Palmer, J. S. (2021). Phenotypic properties and genotyping analysis of Bacillus cereus group isolates from dairy and potato products. LWT, 140(1), 110853. doi: 10.1016/j. lwt.2021.110853
Huck, J. R., Hammond, B. H., Murphy, S. C., Woodcock, N. H., & Boor, K. J. (2007). Tracking spore-forming bacterial contaminants in milk fluid milk-processing systems. Journal of Dairy Science, 90(10), 4872-4883. doi: 10.3168/jds.2007-0196
Kosikowski, F. V., & Fox, P. F. (1968). Low heat, hydrogen peroxide and bactofugation treatments of milk to control coliforms in Cheddar cheese. Journal of Dairy Science, 51(7), 1018-1022. doi: 10.3168/jds.S0 02 2-0302(68)87116-4
Oliveira, R. B., Margalho, L. P., Nascimento, J. S., Costa, L. E., Portela, J. B., Cruz, A. G., & Sant'Ana A. S. (2016). Processed cheese contamination by spore-forming bacteria: a review of sources, routes, fate during processing and control. Trends Food Science and Technology, 57(6), 11-19. doi: 10.1016/j.tifs. 2016.09.008
Reginensi, S. M., González, M. J., Olivera, J. A., Sosa, M., Juliano, P., & Bermúdez, J. (2011). RAPD-based screening for spore-forming bacterial populations in Uruguayan commercial powdered milk. International Journal of Food Microbiology, 148(1), 36-41. doi: 10.1016/j.ijfoodmicro.2011.04.020
Ribeiro, J. C. Jr., Tamanini, R., Oliveira, A. L. M. de, Ribeiro, J., & Beloti, V. (2018). Spoilage potential of spore-forming bacteria from refrigerated raw milk. Semina: Ciências Agrárias, 39(5), 2049-2057. doi: 10.5433/1679-0359.2018v39n5p2049
Ribeiro, J. C. Jr., Peruzi, G. A., Bruzaroski, S. R., Tamanini, R., Lobo, C. M. O., Alexandrino, B., Beloti, V. (2019). Effect of bactofugation of raw milk on counts and microbial diversity of psychrotrophs. Journal of Dairy Science, 102(9), 7794-7799. doi: 10.3168/jds.2018-16148
Ribeiro, J. C. Jr., Tamanini, R., Alfieri, A. A., & Beloti, V. (2020). Effect of milk bactofugation on the counts and diversity of thermoduric bacteria. Journal of Dairy Science, 103(10), 8782-8790. doi: 10.3168/jds. 2020-18591
Ribeiro, J. C. Jr., Tamanini, R., Soares, B. F., Oliveira, A. M. de, Silva, F. G., Silva, F. F. Beloti, V. (2016). Efficiency of boiling and four other methods for genomic DNA extraction of deteriorating spore-forming bacteria from milk. Semina: Ciências Agrárias, 37(5), 3069-3078. doi: 10.5433/1679-0359.2016v37n5 p3069
Scheldeman, P., Pil, A., Herman, L., De Vos, P., & Heyndrickx, M. (2005). Incidence and diversity of potentially highly heat-resistant spores isolated at dairy farms. Applied and Environmental Microbiology, 71(3), 1480-1494. doi: 10.1128/AEM.71.3.1480-1494.2005
Stack, A., & Sillen, A. (1998). Bactofugation of liquid milks. Nutrition & Food Science, 98(5), 280-282. doi: 10.1108/00346659810224217
Torres-Anjel, M. J., & Hedrick, T. I. (1971). Spore removal by centrifugation and its effect on ultra-high temperature commercial sterilization of milk. Journal of Dairy Science, 54(3), 326-330. doi: 10.3168/jds. S0022-0302(71)85837-X
Tortora, G. J., Funke, B. R., & Case, C. L. (2007). Microbiology: an introduction. San Francisco, CA: Pearson Benjamin Cummings.
Yuan, D. D., Liu, G. C., Ren, D. Y., Zhang, D., Zhao, L., Kan, C. P.,… Zhang, L. B. (2012). A survey on occurrence of thermophilic bacilli in commercial milk powders in China. Food Control, 25(2), 752-757. doi: 10.1016/j.foodcont.2011.12.020
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Published
2022-03-16
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Ribeiro Júnior, J. C., Tamanini, R., Alfieri, A. A., & Beloti, V. (2022). Effect of bactofugation of raw milk on total bacterial and aerobic spore counts and on microbial diversity of sporeformers. Semina: Ciências Agrárias, 43(3), 1187–1196. https://doi.org/10.5433/1679-0359.2022v43n3p1187
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