Effect of Biodegradable Packaging on the Shelf-Life of Pasteurised Whole Egg Mass

Abdulhakim, S. E., Salam, A. I., Tahergorabi, R. (2019). Egg quality and safety with an overview of edible coating application for egg preservation. J. Food Chem., 296, 29–39.10.1016/j.foodchem.2019.05.18231202303 Search in Google Scholar

Abhilash, S. S., Luckose, R., Singaravelu, D. L. (2020). Processing and char-acterisation of HDPE and MDPE processed by rotational moulding. Mater. Today Proc., 27 (3), 2029–2032.10.1016/j.matpr.2019.09.052 Search in Google Scholar

Commission Regulation (EC) No. 589/2008 of 23 June 2008 laying down detailed rules for implementing Council Regulation (EC) No. 1234/2007 as regards marketing standards for eggs. 2005. Offic. J. Eur. Union, L163, 6–23. Search in Google Scholar

Dobrucka, R., Cierpiszewski, R. (2014). Active and intelligent packaging food — research and development: A review. Polish J. Food Nutr. Sci., 64 (1), 7–15.10.2478/v10222-012-0091-3 Search in Google Scholar

Dukalska, L., Ungure, E., Augspole, I., Muizniece-Brasava, S., Rakcejeva, T. (2013). Evaluation of the influence of various biodegradable packaging materials on the quality and shelf life of different food products. Proc. Latv. Univ. Agr., 30 (1), 20–34.10.2478/plua-2013-0011 Search in Google Scholar

Grigoriadou, I, Pavlidou, E, Paraskevopoulos, K. M., Terzopoulou, Z., Bikiaris, D. N. (2018). Comparative study of the photochemical stability of HDPE/Ag composites. Polymer Degrad. Stabil., 153, 22–36.10.1016/j.polymdegradstab.2018.04.016 Search in Google Scholar

Kirse, A., Galoburda, R., Muizniece-Brasava, S., Karklina, D., Skudra, L. (2017). Improvement of microbiological safety and shelf-life of pulse spreads through sous vide and high-pressure processing. Agron.Res., 15 (S2), 1304–1315. Search in Google Scholar

Kocetkovs, V., Muizniece-Brasava, S., (2019). Manufacturer and retailer, the introduction of smart packaging systems in the market of Latvia. In: 25th Annual International Conference: Research for Rural Development 2019, 15–17 May 2019. Latvia University of Life Sciences and Technologies, pp. 222–226. http://www2.llu.lv/research_conf/proceedings.htm (accessed 12.01.2022). Search in Google Scholar

Kuorwel, K., Marlene, Cran, J., Sonneveld, K., Miltz, J., Bigger W. S. (2011). Antimicrobial activity of biodegradable polysaccharide and protein-based films containing active agents. J. Food Sci., 76 (3), 90–102.10.1111/j.1750-3841.2011.02102.x21535854 Search in Google Scholar

Kuswandi, B., Wicaksono, Y., Jayus, Abdullah, A., Heng, L. Y., Ahmad, M. (2011). Smart packaging: Sensors for monitoring of food quality and safety. Sensing Instrum. Food Qual. Safety, 5, 137–146.10.1007/s11694-011-9120-x Search in Google Scholar

Kruma, Z., Galoburda, R., Tomsone, L., Gramatina, I., Senhofa, S., Straumite, E., Klava, D., Kince, T., Cinkmanis, I., Zagorska, J., Kunkulberga, D. (2018). Changes in the nutritional value of breakfast cereals containing germinated spring grain flakes during storage. Agron. Res., 16 (S2), 1405–1416. Search in Google Scholar

Latvian National Accreditation Bureau (2020). Registration No. LATAK-T-544-05-2015, Accreditation Standard: LVS EN ISO/IEC 17025:2017. https://www.latak.gov.lv/index.php?option=com_institucijas&view=pdf&id=8933&apl=34000&lang=lv (accessed 12.01.2022). Search in Google Scholar

Marsh, K., Bugusu, B. (2007). Food packaging-roles, materials, and environmental issues. J. Food Sci., 72 (3), 39–55.10.1111/j.1750-3841.2007.00301.x17995809 Search in Google Scholar

Omanovic-Miklièanin E. (2017). Smart food packaging. In: Conference paper: “Works of the Faculty of Agriculture University of Sarajevo”, Sarajevo, Vol. 62, No. 67 (2), pp. 702–708. Search in Google Scholar

Poyatos-Racionero, E., Ros-Lis, J.V., Vivancos, J.-L., Martines-Manez, R. (2018). Recent advances on intelligent packaging as tools to reduce food waste. J. Cleaner Prod., 172, 3398–3409.10.1016/j.jclepro.2017.11.075 Search in Google Scholar

Rui, M. S. C. (Ed.) (2020). Food Packaging. Innovations and Shelf-Life. CRC Press Taylor & Francis Group, Boca Raton. 288 pp. Chapter 2. Packaging Biodegradability. Search in Google Scholar

Robertson, G. (Ed.) (2008). Biobased food packaging materials: New directions. In: Chielliny, E. (Ed.) Environmentally Compatible Food Packaging. Woodhead Publishing Ltd, Cambridge, pp. 1–24. Search in Google Scholar

Sohail, M., Sun, D.-W., Zhu, Z. (2018). Recent developments in intelligent packaging for enhancing food quality and safety. Crit. Rev. Food Sci. Nutr., 58 (15), 2650–2662.10.1080/10408398.2018.144973129513558 Search in Google Scholar

Sunga, S. Y.,Tin Sina, L.,Tiam-Ting T. (2013). Antimicrobial agents for food packaging applications. Trends Food Sci. Technol., 33, 110–123.10.1016/j.tifs.2013.08.001 Search in Google Scholar

Shanmugam, K., Doosthosseini, H., Varanasi, S., Garnier, G., Batchelor, W. (2018). Nanocellulose films as air and water vapour barriers: A recyclable and biodegradable alternative to polyolefin packaging. Sust. Mater. Technol., 22, 1–8. Search in Google Scholar

Van Tuil, R., Fowler, P., Lawther, M., Weber, C. J. (2000). Properties of biobased, packaging materials. In: Weber, C. J. (Ed.). Biobased Packaging Materials for the Food Industry – Status and Perspectives. KVL, Frederiksberg, Denmark, pp. 13–44. Search in Google Scholar

Yam, K. L., Takhistov, P. T., Miltz. J. (2004). Intelligent packaging: Concepts and applications. J. Food Sci., 70, R1–R10. Search in Google Scholar