Advanced search
Publication Cover
Journal of Aquatic Food Product Technology Volume 27, 2018 - Issue 10
Submit an article Journal homepage
1,407
Views
38
CrossRef citations to date
0
Altmetric
Review Article

Current Practice and Innovations in Fish Packaging

Theofania N. TsironiLaboratory of Food Chemistry and Technology, School of Chemical Engineering, National Technical University of Athens, Athens, GreeceCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-6348-8846
ORCID Icon &
Petros S. TaoukisLaboratory of Food Chemistry and Technology, School of Chemical Engineering, National Technical University of Athens, Athens, GreeceORCID Iconhttp://orcid.org/0000-0003-0515-3789
ORCID Icon
Pages 1024-1047 | Published online: 25 Oct 2018

References

  • Ahmed, I., Lin, H., Zou, L., Brody, A. L., Li, Z., Qazi, I. M., Pavase, T. R., and Lv, L. 2017. A comprehensive review on the application of active packaging technologies to muscle foods. Food Cont. 82:163–178.
  • Ahvenainen, R., Hurme, E. E., Randell, K., and Eilamo, M. 1995. The Effect of Leakage on the Quality of Gas-Packed Foodstuffs and the Leak Detection. Technical Research Centre of Finland: Espoo.
  • Alfaro, B., Hernández, I., Le Marc, Y., and Pin, C. 2013. Modelling the effect of the temperature and carbon dioxide on the growth of spoilage bacteria in packed fish products. Food Cont. 29:429–437.
  • Alvarez, J. A., Pozo, R., and Pastoriza, L. 1996. Effect of a cryoprotectant agent (sodium tripolyphosphate) on hake slices preserved in modified atmosphere packing. Food Sci. Technol. Int. 2:177–181.
  • Amanatidou, A., Schluter, O., Lemkau, K., Gorris, M. G. L., Smid, J. E., and Knorr, D. 2000. Effect of combined application of high pressure treatment and modified atmospheres on the shelf life of fresh Atlantic salmon. Inno. Food Sci. Emer. Technolo. 1:87–98.
  • Araújo, C., Muñoz-Atienza, E., Nahuelquín, Y., Poeta, P., Igrejas, G., Hernández, P. E., and Cintas, C. H. L. M. 2015. Inhibition of fish pathogens by the microbiota from rainbow trout (Oncorhynchus mykiss, Walbaum) and rearing environment. Anaerobe. 32:7–14. doi:10.1016/j.anaerobe.2014.11.001.
  • Arkoudelos, J., Stamatis, N., and Samaras, F. 2007. Quality attributes of farmed eel (Anguilla Anguilla) stored under air, vacuum and modified atmosphere packaging at 0°C. Food Microbiol. 24:728–735.
  • Arritt, F. M., Eifert, J. D., Jahncke, M. J., Pierson, M. D., and Williams, R. C. 2007. Effects of modified atmosphere packaging on toxin production by clostridium botulinum in raw aquacultured summer flounder fillets (Paralichthys dentatus). J. Food Prot. 70(5):1159–1164.
  • Babic, J., Milijasevic, M., Vranic, D., Veskovic-Moracanin, S., and Djinovic-Stojanovic, J. 2015. Effect of modified atmosphere packaging on the shelf-life of common carp (Cyprinus carpio) steaks. Procedia Food Sci. 5:2–5.
  • Barnett, H. J., Conrad, J. W., and Nelson, R. W. 1987. Use of laminated high and low density polyethylene flexible packaging to store trout (Salmo gairdneri) in a modified atmosphere. J. Food Prot. 50:645–651. doi:10.4315/0362-028X-50.8.645.
  • Banks H., Nickelson R., Finne G. 1980. Shelf-life studies on carbon dioxide packaged finfish from the Gulf of Mexico. Journal of Food Science, 45, 157–162.
  • Biji, K. B., Ravishankar, C. N., Mohan, C. O., and Srinivasa Gopal, T. K. 2015. Smart packaging systems for food applications: A review. J Food Sci. Technol. 52(10):6125–6135. doi:10.1007/s13197-015-1766-7.
  • Bjørlykke, G. A., Roth, B., Sørheim, O., Kvamme, B. O., and Slinde, E. 2011. The effects of carbon monoxide on Atlantic salmon (Salmo salar L. Food Chem. 127:1706–1711.
  • Bøknæs, N., Østerberg, C., Nielsen, J., and Dalgaard, P. 2000. Influence of freshness and frozen storage temperature on quality of thawed cod fillets stored in modified atmosphere packaging. Lebensmittel-Wissenschaft und-Technologie. 33(3):244–248. doi:10.1006/fstl.2000.0634.
  • Bolumar, T., LaPeña, D., Skibsted, L. H., and Orlien, V. 2016. Rosemary and oxygen scavenger in active packaging for prevention of high-pressure induced lipid oxidation in pork patties. Food Packaging and Shelf Life. 7:26–33. doi:10.1016/j.fpsl.2016.01.002.
  • Bono, G., and Badalucco, C. 2012. Combining ozone and modified atmosphere packaging (MAP) to maximize shelf-life and quality of striped red mullet (Mullus surmuletus). LWT-Food Sci. Technol. 47:500–504.
  • Bouletis, A. D., Arvanitoyannis, I. S., and Hadjichristodoulou, C. 2017. Application of modified atmosphere packaging on aquacultured fish and fish products: A review. Crit. Rev. Food Sci. Nutr. 57(11):2263–2285.
  • Bourtoom, T. (2008). Edible films and coatings: characteristics and properties. International Food Research Journal 15(3):237–248.
  • Calliauw, F., De Mulder, T., Broekaert, K., Vlaemynck, G., Michiels, C., and Heyndrickx, M. 2016. Assessment throughout a whole fishing year of the dominant microbiota of peeled brown shrimp (Crangon crangon) stored for 7 days under modified atmosphere packaging at 4°C without Preservatives. Food Microbiol. 54:60–71. doi:10.1016/j.fm.2015.10.016.
  • Cecchini, J. P., Spotti, M. J., Piagentini, A. M., Milt, V. G., and Carrara, C. R. 2017. Development of edible films obtained from submicron emulsions based on whey protein concentrate, oil/beeswax and brea gum. Food Sci. Technol. Int. 23(4):371–381. doi:10.1177/1082013217695170.
  • Choulitoudi, E., Bravou, K., Bimpilas, A., Tsironi, T., Tsimogiannis, D., Taoukis, P., and Oreopoulou, V. 2016. Antimicrobial and antioxidant activity of Satureja thymbra in gilthead seabream fillets edible coating. Food and Bioproducts Processing. 100:570–577. doi:10.1016/j.fbp.2016.06.013.
  • Choulitoudi, E., Ganiari, S., Tsironi, T., Ntzimani, A., Tsimogiannis, D., Taoukis, P., and Oreopoulou, V. 2017. Edible coating enriched with rosemary extracts to enhance oxidative and microbial stability of smoked eel fillets. Food Packaging and Shelf Life. 12:107–113.
  • Chun, H. N., Kim, B., and Shin, H. S. 2014. Evaluation of a freshness indicator for quality of fish products during storage. Food Sci. Biotechnol. 23(5):1719–1725.
  • Church, N. 1994. Developments in modified-atmosphere packaging and related technologies. Trends Food Sci. Technol. 5:345–352. doi:10.1016/0924-2244(94)90211-9.
  • Cordeiro de Azeredo, H. M. 2012. Edible coatings. Rodrigues, S., and Fernandes, F. A. N., Eds. Advances in Fruit Processing Technologies. 345–361 Boca Raton: CRC Press Inc.
  • Cruz, R. S., Soares, N. F. F., and Andrade, N. J. 2007. Efficiency of oxygen-absorbing sachets in different relative humidities and temperatures. Ciência e Agrotecnologia. 31(6):1800–1804. doi:10.1590/S1413-70542007000600029.
  • Dainelli, D., Gontard, N., Spyropoulos, D., Zondervan-van den Beuken, E., and Tobback, P. 2008. Active and intelligent food packaging: legal aspects and safety concerns. Trends Food Sci. Technol. 19(1):S103–S112. doi:10.1016/j.tifs.2008.09.011.
  • Dalgaard, P., and Huss, H. H. 1995. Mathematical modelling used for evaluation and prediction of microbial fish spoilage. In: Seafood Safety, Processing and Biotechnology. Kramer, D., Shahidi, F., and Jones, Y. (Eds.). Eds. Seafood Safety, Processing and Biotechnology. Technomic Pub. Co. Inc.: Lancaster, Canada. 73–89.
  • Dalgaard, P. 1995. Modelling of microbial activity and prediction of shelf life for packed fresh fish. Int. J. Food Microbiol. 26:305–317. doi:10.1016/0168-1605(94)00136-T.
  • Dalgaard, P., Gram, L., and Huss, H. H. 1993. Spoilage and shelf-life of cod fillets packed in vacuum or modified atmospheres. Int. J. Food Microbiol. 19:283–294.
  • Dalgaard, P., Mejlholm, O., Christiansesn, T. J., and Huss, H. H. 1997. Importance of Photobacterium phosphoreum in relation to spoilage of modified atmosphere-packed fish products. Lett. Appl. Microbiol. 24:373–378. doi:10.1046/j.1472-765X.1997.00152.x.
  • Debevere, J., and Boskou, G. 1996. Effect of modified atmosphere packaging on the TVB/TMA-producing microflora of cod fillets. Int. J. Food Microbiol. 31:221–229.
  • Dehghani, S., Hosseini, S. V., and Regenstein, J. M. 2018. Edible films and coatings in seafood preservation: A review. Food Chem. 240:505–513.
  • Dermesonluoglu, E., Fileri, K., Orfanoudaki, A., Tsevdou, M., Tsironi, T., and Taoukis, P. 2016. Modelling the microbial spoilage and quality decay of pre-packed dandelion leaves as a function of temperature. J. Food Eng. 184:21–30.
  • DeWitt, C. A., and Oliveira, A. C. M. 2016. Modified atmosphere systemas and shelf life extension of fish and fishery products. Foods. 5:48. doi:10.3390/foods5030048.
  • Dhananjaya, S., and Stroud, G. D. 1994. Chemical and sensory changes in haddock and herring stored under modified atmospheres. Int. J. Food Sci. Technol. 29:575–583. doi:10.1111/j.1365-2621.1994.tb02100.x.
  • Dombre, C., Guillard, V., and Chalier, P. 2015. Protection of methionol against oxidation by oxygen scavenger: an experimental and modelling approach in wine model solution. Food Packaging and Shelf Life. 3:76–87. doi:10.1016/j.fpsl.2015.01.002.
  • Donhowe, I. G., and Fennema, O. R. 1993. The effects of plasticizers on crystallinity, permeability, and mechanical properties of methylcellulose films. J. Food Process. Preservation. 17:247–257.
  • Drosinos, E. H., Lambropoulou, K., Mitre, E., and Nychas, G. J. E. 1997. Attributes of fresh gilt-head seabream (Sparus aurata) fillets treated with potassium sorbate, sodium gluconate and stored under modified atmosphere at 0±1◦C. J. Appl. Microbiol. 83:569–575.
  • Duran‐Montgé, P., Permanyer, M., and Belletti, N. (2015). Refrigerated or superchilled skin-packed sea bream (sparus aurata) compared with traditional unpacked storage on ice with regard to physicochemical, microbial and sensory attributes. Journal of Food Processing and Preservation, 39, 1278–1286.
  • EFSA. 2016. EFSA CEF panel (EFSA panel on food contact materials, enzymes, flavouringsand processing aids), scientific opinion on the safety assessment of the active substances citric acid and sodium hydrogen carbonate for use in active food contact materials. Efsa J. 14(7):4529. doi:10.2903/j.efsa.2016.4529.
  • Emborg, J., Laursen, B. G., and Dalgaard, P. 2005. Significant histamine formation in tuna (Thunnus albacares) at 2 degrees C–effect of vacuum- and modified atmosphere-packaging on psychrotolerant bacteria. Int. J. Food Microbiol. 101(3):263–279.
  • Embuscado, M. E., and Huber, K. C. 2009. Edible Films and Coatings for Food Applications. Dordrecht: Springer Inc.
  • Etxabide, A., Uranga, J., Guerrero, P., and de la Caba, K. 2017. Development of active gelatin films by means of valorisation of food processing waste: A review. Food Hydrocoll. 68:192–198. doi:10.1016/j.foodhyd.2016.08.021.
  • EU. (2009). Guidance to the commission regulation (EC) No 450/2009 of 29 May 2009 on active and intelligent materials and articles intended to come into contact with food. In Version 10. European commission health and consumers directorate-general directorate e-safety of the food chain. E6- innovation and sustainability.
  • Fagan, J. D., Gormley, T. R., and Uí Mhuircheartaigh, M. M. 2004. Effect of modified atmosphere packaging with freeze-chilling on some quality parameters of raw whiting, mackerel and salmon portions. Inno. Food Sci. Emer. Technolo. 5:205–214.
  • FAO. 2016. The State of World Fisheries and Aquaculture. Contributing to Food Security and Nutrition for All. Rome, Italy: Food and Agriculture Organization.
  • Farber, J. M. 1991. Microbiological aspects of modified-atmosphere packaging technology-A review. J. Food Prot. 54:58–70. doi:10.4315/0362-028X-54.1.58.
  • Faustman, C., and Cassens, R. G. 1990. The biochemical basis for discoloration in fresh meat: A review. J. Muscle Foods. 1(3):217–243. doi:10.1111/jmf.1990.1.issue-3.
  • FDA. 2011. Fish and Fishery Products, Hazards and Controls Guidance. Fourth. April 2011 Vol. 13 245–292. Florida Sea Grant, Gainesville, FL. http://www.fda.gov/Food/GuidanceRegulation/GuidanceDocumentsRegulatoryInformation/Seafood/ucm2018426.htm.
  • Fellows., P. J. 2016. Packaging (Chapter 24). Food Processing Technology. Principles and Practice. 4th Edition Woodhead Publishing, Elsevier: Duxford, UK. 949–1044.
  • Feng, X., Bansal, N., and Yang, H. 2016. Fish gelatin combined with chitosan coating inhibits myofibril degradation of golden pomfret (Trachinotus blochii) fillet during cold storage. Food Chem. 200:283–292. doi:10.1016/j.foodchem.2016.01.011.
  • Feng, X., Fu, C., and Yang, H. 2017. Gelatin addition improves the nutrient retention, texture and mass transfer of fish balls without altering their nanostructure during boiling. LWT- Food Sci. Technol. 77:142–151. doi:10.1016/j.lwt.2016.11.024.
  • Fernández, K., Aspé, E., and Roeckel, M. 2009. Shelf-life extension on fillets of Atlantic Salmon (Salmo salar) using natural additives, superchilling and modified atmosphere packaging. Food Cont. 20:1036–1042.
  • Fernández, K., Aspé, E., and Roeckel, M. 2010. Scaling up parameters for shelf-life extension of Atlantic Salmon (Salmo salar) fillets using superchilling and modified atmosphere packaging. Food Cont. 21:857–862.
  • Fernández-Pan, I., Maté, J. I., Gardrat, C., and Coma, V. 2015. Effect of chitosan molecular weight on the antimicrobial activity and release rate of carvacrol-enriched films. Food Hydrocoll. 51:60–68. doi:10.1016/j.foodhyd.2015.04.033.
  • Fey, M. S., and Regenstein, J. M. 1982. Extending shelf-life of fresh wet red hake and salmon using CO2-O2 modified atmosphere and potassium sorbate ice at 1°C. J. Food Sci. 47:1048–1054. doi:10.1111/jfds.1982.47.issue-4.
  • Fujii, T., Hirayama, M., Okuzumi, M., Yasuda, M., Nishino, H., and Yokoyama, M. 1989. Shelf-life studies on fresh sardine packaged with carbon dioxide-nitrogen gas mixture. Nippon Suisan Gakkaishi. 55:1971–1975. doi:10.2331/suisan.55.1971.
  • Ganiari, S., Choulitoudi, E., and Oreopoulou, V. 2017. Edible and active films and coatings as carriers of natural antioxidants for lipid food. Trends Food Sci. Technol. 68:70–82.
  • Gaona-Forero, A., Agudelo-Rodríguez, G., Herrera, A. O., and Castellanos, D. A. 2018. Modeling and simulation of an active packaging system with moisture adsorption for fresh produce. Application in ‘Hass’ avocado. Food Packaging and Shelf Life. 17:187–195.
  • Geueke, B., Groh, K., and Muncke, J. 2018. Food packaging in the circular economy: overview of chemical safety aspects for commonly used materials. J. Clean Prod. 193:491–505.
  • Ghanbarzadeh, B., Oleyaei, S. A., and Almasi, H. 2015. Nanostructured materials utilized in biopolymer-based plastics for food packaging applications. Crit. Rev. Food Sci. Nutr. 55:1699–1723. doi:10.1080/10408398.2012.731023.
  • Giannakourou, M. C., Koutsoumanis, K., Nychas, G. J. E., and Taoukis, P. S. 2005. Field evaluation of the application of time temperature integrators for monitoring fish quality in the chill chain. Int. J. Food Microbiol. 102(3):323–336.
  • Giannoglou, M., Ronnow, P., Tsironi, T., Platakou, E., Metaxa, I., and Taoukis, P., 2012. Development and application of CO2 indicating smart labels for monitoring shelf life of MAP fish fillets. In: IFT Annual Meeting, Las Vegas, NV, 25-28 June, 2012, p. 255.
  • Giannoglou, M., Touli, A., Platakou, E., Tsironi, T., and Taoukis, P. S. 2014. Predictive modeling and selection of TTI smart labels for monitoring the quality and shelf life of frozen seafood. Inno. Food Sci. Emer. Technolo. 26:294–301. doi:10.1016/j.ifset.2014.10.008.
  • Giménez, B., Roncalés, P., and Beltrán, J. A. 2002. Modified atmosphere packaging of filleted rainbow trout. J. Sci. Food Agric. 82:1154–1159. doi:10.1002/jsfa.1136.
  • Gómez-Estaca, J., de Lacey, L., López-Caballero, A., Gómez-Guillén, M. E., and Montero, M. C. 2010. Biodegradable gelatinechitosan films incorporated with essential oils as antimicrobial agents for fish preservation. Food Microbiol. 27:889–896. doi:10.1016/j.fm.2010.05.012.
  • Goulas, A. E., and Kontominas, M. G. 2007. Combined effect of light salting, modified atmosphere packaging and oregano essential oil on the shelf-life os sea bream (Sparus aurata): biochemical and sensory attributes. Food Chem. 100(1):287–296.
  • Gram, L., and Huss, H. H. 1996. Microbiological spoilage of fish and fish products. Int. J. Food Microbiol. 33:121–137. doi:10.1016/0168-1605(96)01134-8.
  • Guldager, H. S., Bøknæs, N., Østerberg, C., Nielsen, J., and Dalgaard, P. 1998. Thawed cod fillets spoil less rapidly than unfrozen fillets when stored under modified atmosphere at 2°C. J. Food Prot. 61:1129–1136. doi:10.4315/0362-028X-61.9.1129.
  • Gunsen, U., Ozcan, A., and Aydin, A. 2010. The effect of modified atmosphere packaging on extending shelf-lifes of cold storaged marinated seafood salad. J. Anim. Vet. Adv. 9(15):2017–2024. doi:10.3923/javaa.2010.2017.2024.
  • Handumrongkul, C., and Silva, J. L. 1994. Aerobic counts, color and adenine nucleotide changes in CO2, packed refrigerated striped bass strips. J. Food Sci. 59(1):67–69. doi:10.1111/jfds.1994.59.issue-1.
  • Hansen, Å. A., Moena, B., Rødbottena, M., Bergeta, I., and Pettersen, M. K. 2016. Effect of vacuum or modified atmosphere packaging (MAP) in combination with a CO2 emitter on quality parameters of cod loins (Gadus morhua). Food Packaging and Shelf Life. 9:29–37. doi:10.1016/j.fpsl.2016.05.005.
  • Hansen, A. A., Mørkøre, T., Rudi, K., Olsen, E., and Eie, T. 2007. Quality changes during refrigerated storage of MA-packaged pre-rigor fillets of farmed atlantic cod (Gadus morhua L.) using traditional MAP, CO2 emitter, and vacuum. J. Food Sci. 72(9):M423–M430.
  • Hansen, A. A., Mørkøre, T., Rudi, K., Rødbotten, M., Bjerke, F., and Eie, T. 2009. Quality changes of prerigor filleted atlantic salmon (salmo salar l.) packaged in modified atmosphere using CO2 emitter, traditional MAP, and Vacuum. J. Food Sci. 74(6):M242–M249.
  • Hassoun, A., and Karoui, R. 2016. Monitoring changes in whiting (Merlangius merlangus) fillets stored under modified atmosphere packaging by front face fluorescence spectroscopy and instrumental techniques. Food Chem. doi:10.1016/j.foodchem.2016.01.028.
  • Hong, L. C., Leblanc, E. L., Hawrysh, Z. J., and Hardin, R. T. 1996. Quality of atlantic mackerel (Scomber scombrus L.) fillets during modified atmosphere storage. J. Food Sci. 61:646–651. doi:10.1111/jfds.1996.61.issue-3.
  • Hsiao, H.-I., and Chang, J.-N. 2016. Developing a microbial time–temperature indicator to monitor total volatile basic nitrogen change in chilled vacuum-packed grouper fillets. J. Food Process. Preservation. 41(5):1–9.
  • Hutter, S., Rüegg, N., and Yildirim, S. 2016. Use of palladium based oxygen scavenger to prevent discoloration of ham. Food Packaging and Shelf Life. 8:56–62. doi:10.1016/j.fpsl.2016.02.004.
  • Janjarasskul, T., and Suppakul, P. 2017. Active and intelligent packaging: the indication of quality and safety. Crit. Rev. Food Sci. Nutr. doi:10.1080/10408398.2016.1225278.
  • Jasour, M. S., Ehsani, A., Mehryar, L., and Naghibi, S. S. 2014. Chitosan coating incorporated with the lactoperoxidase system: an active edible coating for fish preservation. J. Sci. Food Agric. 95:1373–1378. doi:10.1002/jsfa.6838.
  • Jeon, Y.-J., Kamil, J. Y. V. A., and Shahidi, F. 2002. Chitosan as an edible invisible film for quality preservation of herring and Atlantic cod. J. Agric. Food Chem. 50:5167–5178. doi:10.1021/jf011693l.
  • Jiang, M., Liu, S., Du, X., and Wang, Y. 2010. Physical properties and internal microstructures of films made from catfish skin gelatin and triacetin mixtures. Food Hydrocoll. 24:105–110. doi:10.1016/j.foodhyd.2009.08.011.
  • Johnson, D. R., Inchingolo, R., and Decker, E. A. 2018. The ability of oxygen scavenging packaging to inhibit vitamin degradation and lipid oxidation in fish oil-in-water emulsions. Inno. Food Sci. Emer. Technolo. 47:467–475. doi:10.1016/j.ifset.2018.04.021.
  • Kim, H. J., Son, K. T., Lee, S. G., Park, S. Y., Heu, M. S., and Kim, J. S. 2016. Suppression of lipid deterioration in boiled-dried anchovy by coating with fish gelatin hydrolysates. J. Food Biochem. 41:e12331. doi:10.1111/jfbc.12331.
  • Kirtil, E., Kilercioglu, M., and Oztop, M. H. 2016. Modified Atmosphere Packaging of Foods, in Reference Module in Food Science. Amsterdam, Netherlands: Elsevier. ISBN 9780081005965 doi:10.1016/B978-0-08-100596-5.03218-2.
  • Kostaki, M., Giatrakou, V., Savvaidis, I. N., and Kontominas, M. G. 2009. Combined effect of MAP and thyme essential oil on the microbiological, chemical and sensory attributes of organically aquacultured sea bass (Dicentrarchus labrax) fillets. Food Microbiol. 26(5):475–482. doi:10.1016/j.fm.2009.02.008.
  • Kour, H., Malik, A. A., Ahmad, N., Wani, T. A., Kaul, R. K., and Bhat, A. 2015. Nanotechnology – new lifeline for food industry. Crit. Rev. Food Sci. Nutr. doi:10.1080/10408398.2013.802662.
  • Koutsoumanis, K. P., and Gougouli, M. 2015. Use of time temperature integrators in food safety management. Trends Food Sci. Technol. 43:236–244.
  • Koutsoumanis, K. P., Taoukis, P. S., Drosinos, E. H., and Nychas, G. J. E. 2000. Applicability of an Arrhenius model for the combined effect of temperature and CO2 packaging on the spoilage microflora of fish. Appl. Environ. Microbiol. 66(8):3528–3534.
  • Kuswandi, B., Maryska, C., Jayus Abdullah, A., and Heng, L. Y. 2013. Real time on-package freshness indicator for guavas packaging. J. Food Meas. Characterization. 7:29–39.
  • Kuuliala, L., Hage, Y. A., Ioannidis, A.-G., Sader, M., Kerckhof, F.-M., Vanderroost, M., Boon, N., De Baets, B., de Meulenaer, B., Ragaert, P., and Devlieghere, F. 2018. Microbiological, chemical and sensory spoilage analysis of raw Atlantic cod (Gadus morhua) stored under modified atmospheres. Food Microbiol. 70:232–244. doi:10.1016/j.fm.2017.10.011.
  • Kykkidou, S., Giatrakou, V., Papavergou, A., Kontominas, M. G., and Savvaidis, I. N. 2009. Effect of thyme essential oil and packaging treatments on fresh Mediterranean swordfish fillets during storage at 4°C. Food Chem. 115(1):169–175. doi:10.1016/j.foodchem.2008.11.083.
  • Labuza, T. P. 1993. Active packaging technologies for improved shelf life and quality. Science for the Food Industry of the 21st Century, Biotechnology, Supercritical Fluids, Membranes and Other Advanced Technologies for Low Calorie, Healthy Food Alternatives. Yalpani, M., Editor. ATL Press, Inc.: Mount Prospect. Vol. Il 265–284.
  • Lee, K. T. 2010. Quality and safety aspects of meat products as affected by various physical manipulations of packaging materials. Meat Sci. 86:138–150.
  • Lee, S. J., and Rahman, A. T. M. M. 2014. Intelligent packaging for food products. Han, J. H., Ed. Innovations in Food Packaging. Elsevier Ltd: London, UK. 171–209.
  • Li, T., Li, J., Hu, W., and Li, X. 2013. Quality enhancement in refrigerated red drum (Sciaenops ocellatus) fillets using chitosan coatings containing natural preservatives. Food Chem. 138:821–826.
  • Licciardello, J. J., Ravesi, E. M., Tuhkunen, B. E., and Racicot, L. D. 1984. Effect of some potentially synergistic treatments in combination with 100 Krad irradiation on the iced shelf life of cod fillets. J. Food Sci. 49(1341–1346):1375. doi:10.1111/j.1365-2621.1984.tb14986.x.
  • Lim, E. S. 2016. Inhibitory effect of bacteriocin-producing lactic acid bacteria against histamine-forming bacteria isolated from Myeolchi-jeot. Fish. Aquatic Sci. 19:42–52. doi:10.1186/s41240-016-0040-x.
  • López-Gálvez, D., de la Hoz, L., and Ordónez, J. A. 1995. Effect of carbon dioxide and oxygen enriched atmospheres on microbiological and chemical changes in refrigerated tuna (Thunnus alalunga) steaks. J. Agric. Food Chem. 43:483–490. doi:10.1021/jf00050a042.
  • Lyhs, U., Lahtinen, J., and Schelvis-Smit, R. 2007. Microbiological quality of maatjes herring in air and under modified atmosphere at 4 and 10°C. Food Microbiol. 24:508–516. doi:10.1016/j.fm.2006.08.003.
  • Macé, S., Cardinal, M., Jaffrès, E., Cornet, J., Lalanne, V., Chevalier, F., Sérot, T., Pilet, M. F., Dousset, X., and Joffraud, J. J. 2014. Evaluation of the spoilage potential of bacteria isolated from spoiled cooked whole tropical shrimp (Penaeus vannamei) stored under modified atmosphere packaging. Food Microbiol. 40:9–17.
  • Macé, S., Cornet, J., Chevalier, F., Cardinal, M., Pilet, M. F., Dousset, X., and Joffraud, J. J. 2012. Characterisation of the spoilage microbiota in raw salmon (Salmo salar) steaks stored under vacuum or modified atmosphere packaging combining conventional methods and PCR-TTGE. Food Microbiol. 30:164–172. doi:10.1016/j.fm.2011.10.009.
  • Macé, S., Joffraud, J. J., Cardinal, M., Malcheva, M., Cornet, J., Lalanne, V., Chevalier, F., Sérot, T., Pilet, M. F., and Dousset, X. 2013. Evaluation of the spoilage potential of bacteria isolated from spoiled raw salmon (Salmo salar) fillets stored under modified atmosphere packaging. Int. J. Food Microbiol. 160:227–238.
  • Mai, N., Audorff, H., Reichstein, W., Haarer, D., Olafsdottir, G., Bogason, S. G., Kreyenschmidt, J., and Arason, A. 2011. Performance of a photochromic time–temperature indicator under simulated fresh fish supply chain conditions. Int. J. Food Sci. Technol. 46:297–304. doi:10.1111/j.1365-2621.2010.02475.x.
  • Marcinkowska-Lesiak, M., Poławska, E., Półtorak, A., and Wierzbicka, A. 2017. The effect of varying gas headspace to meat ratio on the quality of pork loin stored in high O2 modified atmosphere. CYTA-Journal of Food. 15(2):226–233.
  • Masniyom, P., Benjakul, S., and Visessanguan, W. 2002. Shelf-life extension of refrigerated seabass slices under modified atmosphere packaging. J. Sci. Food Agric. 82:873–880.
  • Mauriello, G., Ercolini, D., La Storia, A., Casaburi, A., and Villani, F. 2004. Development of polythene films for food packaging activated with an antilisterial bacteriocin from Lactobacillus curvatus 32Y. J. Appl. Microbiol. 97:314–322.
  • Messina, C. M., Bono, G., Renda, G., La Barbera, L., and Santulli, A. 2015. Effect of natural antioxidants and modified atmosphere packaging in preventing lipid oxidation and increasing the shelf-life of common dolphinfish (Coryphaena hippurus) fillets. LWT-Food Sci. Technol. 62:271–277. doi:10.1016/j.lwt.2015.01.029.
  • Milne, D., and Powell, S. M. 2014. Limited microbial growth in Atlantic salmon packed in a modified Atmosphere. Food Cont. 42:29–33. doi:10.1016/j.foodcont.2014.01.035.
  • Miltz, J., and Perry, M. 2005. Evaluation of the performance of iron-based oxygen scavengers, with comments on their optimal applications. Packaging Technolo. Sci. 18:21–27.
  • Newsome, R., Balestrini, C. G., Baum, M. D., Corby, J., Fisher, W., Goodburn, K., Labuza, T. P., Prince, G., Thesmar, H. S., and Yiannas, F. 2014. Applications and perceptions of date labeling of food. Compr. Rev. Food Sci. Food Saf. 13:745–769. doi:10.1111/1541-4337.12086.
  • Nuin, M., Alfaro, B., Cruz, Z., Argarate, N., George, S., Le Marc, Y., Olley, J., and Pin, C. 2008. Modelling spoilage of fresh turbot and evaluation of a time–temperature integrator (TTI) label under fluctuating temperature. Int. J. Food Microbiol. 127(3):193–199. doi:10.1016/j.ijfoodmicro.2008.04.010.
  • Oberlender, V., Hanna, M. O., Miget, R., Vanderzant, C., and Finne, G. 1983. Storage characteristics of fresh swordfish steaks stored in carbon dioxide enriched controlled (flow-through) atmospheres. J. Food Sci. 46:434–440.
  • Ojagh, S. M., Rezaei, M., Razavi, S. H., and Hosseini, S. M. H. 2010. Effect of chitosan coatings enriched with cinnamon oil on the quality of refrigerated rainbow trout. Food Chem. 120:193–198. doi:10.1016/j.foodchem.2009.10.006.
  • Ordónez, J. A., López-Gálvez, D. E., Fernández, M., Hierro, E., and de la Hoz, L. 2000. Microbial and physicochemical modifications of hake (Merluccius merluccius) steaks stored under carbon dioxide enriched atmospheres. J. Sci. Food Agric. 80:1831–1840.
  • Otero-Pazos, P., Sendón, R., Martínez, I., Aurrekoetxea, G. P., Angulo, I., and Rodríguez-Bernaldo de Quirós, A. 2018. Evaluation of oxygen absorber system effectiveness in butter containers. CyTA-Journal of Food. 16(1):205–212.
  • Özogul, F., Polat, A., and Özogul, Y. 2004. The effects of modified atmosphere packaging and vacuum packaging on chemical, sensory and microbiological changes of sardines (Sardina pilchardus). Food Chem. 85:49–57. doi:10.1016/j.foodchem.2003.05.006.
  • Ozogul, Y., Yuvka, I., Ucar, Y., Durmus, M., Kosker, A. R., Oz, M., et al. . 2017. Evaluation of effects of nanoemulsion based on herb essential oils (rosemary, laurel, thyme and sage) on sensory, chemical and microbiological quality of rainbow trout (Oncorhynchus mykiss) fillets during ice storage. LWT Food Sci. Technol. 75:677–684. doi:10.1016/j.lwt.2016.10.009.
  • Pantazi, D., Papavergou, A., Pournis, N., Kontominas, M. G., and Savvaidis, I. N. 2008. Shelf-life of chilled fresh Mediterranean swordfish (Xiphias gladius) stored under various packaging conditions: microbiological, biochemical and sensory attributes. Food Microbiol. 25:136–143. doi:10.1016/j.fm.2007.06.006.
  • Parkin, K. L., Wells, M. J., and Brown, W. D. 1981. Modified atmosphere storage of rockfish fillets. J. Food Sci. 47:181–184. doi:10.1111/j.1365-2621.1982.tb11054.x.
  • Parlapani, F. F., Kormas, K. A., and Boziaris, I. S. 2015. Microbiological changes, shelf life and identification of initial and spoilage microbiota of sea bream fillets stored under various conditions using 16S rRNA gene analysis. J. Sci. Food Agric. 95(12):2386–2394. doi:10.1002/jsfa.2015.95.issue-12.
  • Parlapani, F. F., Mallouchos, A., Haroutounian, S. A., and Boziaris, I. S. 2014. Microbiological spoilage and investigation of volatile profile during storage of sea bream fillets under various conditions. Int. J. Food Microbiol. 189:153–163. doi:10.1016/j.ijfoodmicro.2014.08.006.
  • Pastoriza, L., Sampedro, G., Herrera, J. J., and Cabo, M. L. 1998. Influence of sodium chloride and modified atmosphere packaging on microbial, chemical and sensorial properties in ice storage of slices of hake (Merluccius merluccius). Food Chem. 61:23–28. doi:10.1016/S0308-8146(97)00130-1.
  • Pennanen, K., Focas, C., Kimpusalo-Sanna, V., Keskitalo-Vuokko, K., Matullat, I., Ellouze, M., Pentikäinen, S., Smolander, M., Korhonen, V., and Ollila, M. 2015. European consumers’ perceptions of time-temperature indicators in food packaging. Packaging Technol. Sci. 28(4):303–323. doi:10.1002/pts.2105.
  • Penney, N., Bell, R. G., and Cummings, T. L. 1994. Extension of the shilled storage life of smoked blue cod (Parapercis colias) by carbon dioxide packaging. Int. J. Food Sci. Technol. 29:167–178.
  • Poli, B. M., Messini, A., Parisi, G., Scappini, F., Vigiani, V., Giorgi, G., and Vincenzini, M. 2006. Sensory, physical, chemical and microbiological changes in European sea bass (Dicentrarchus labrax) fillets packed under modified atmosphere/air or prepared from whole fish stored in ice. Int. J. Food Sci. Technol. 41:444–454. doi:10.1111/ifs.2006.41.issue-4.
  • Post, L. S., Lee, D. A., Solberg, M., Furgang, D., Specchio, J., and Graham, C. 1985. Development of botulinal toxin and sensory deterioration during storage of vacuum and modified atmosphere packaged fish fillets. J. Food Sci. 50:990–996. doi:10.1111/jfds.1985.50.issue-4.
  • Pournis, N., Papavergou, A., Badeka, A., Kontominas, M. G., and Savvaidis, I. N. 2005. Shelf-life extension of refrigerated Mediterranean mullet (Mullus surmuletus) using modified atmosphere packaging. J. Food Prot. 68(10):2201–2207. doi:10.4315/0362-028X-68.10.2201.
  • Powell, S. M., and Tamplin, M. L. 2012. Microbial communities on Australian modified atmosphere packaged Atlantic salmon. Food Microbiol. 30:226–232. doi:10.1016/j.fm.2011.10.009.
  • Provincial, L., Gil, M., Guillen, E., Alonso, V., Roncales, P., and Beltran, A. J. 2010. Effect of modified atmosphere packaging using different CO2 and N2 combinations on physical, chemical, microbiological and sensory hanges of fresh sea bass (Dicentrarchus labrax) fillets. Int. J. Food Sci. Technol. 45:1828–1836. doi:10.1111/j.1365-2621.2010.02341.x.
  • Provincial, L., Guillén, E., Alonso, V., Gil, M., Roncalés, P., and Beltrán, J. A. 2013. Survival of Vibrio parahaemolyticus and Aeromonas hydrophila in sea bream (Sparus aurata) fillets packaged under enriched CO2 modified atmospheres. Int. J. Food Microbiol. 166(1):141–147. doi:10.1016/j.ijfoodmicro.2013.06.013.
  • Pyrgotou, N., Giatrakou, V., Ntzimani, A., and Savvaidis, I. N. 2010. Quality assessment of salted, modified atmosphere packaged rainbow trout under treatment with oregano essential oil. J. Food Sci. 75(7):M406–M411.
  • Rajamani, M., and Maliyekkal, S. M. 2018. Chitosan reinforced boehmite nanocomposite desiccant: A promising alternative to silica gel. Carbohydr. Polym. 194:245–251.
  • Randell, K., Ahvenainen, R., and Hattula, T. 1995. Effect of the gas/product ratio and CO2 concentration on the shelf-life of MA packed fish. Packaging Technol. Sci. 8:205–218. doi:10.1002/(ISSN)1099-1522.
  • Randell, K., Hattula, T., Skyttä, E., Sivertsvik, M., and Berglien, H. 1999. Quality of filleted salmon in various retail packages. J. Food Qual. 22:483–497.
  • Realini, C. E., and Marcos, B. 2014. Active and intelligent packaging systems for a modern society. Meat Sci. 98:404–419.
  • Reddy, N. R., Roman, M. G., Villanueva, M., Solomos, H. M., Kautter, D. A., and Rhodehamel, E. J. 1997a. Shelf life and Clostridium botulinum toxin development during storage of modified atmosphere-packaged fresh catfish fillets. J. Food Sci. 62:878–884.
  • Reddy, N. R., Schreiber, C. L., Buzard, K. S., Skinner, G. E., and Armstrong, D. S. 1994. Shelf life of fresh tilapia fillets packaged in high barrier film with modified atmospheres. J. Food Sci. 59(2):260–264. doi:10.1111/j.1365-2621.1994.tb06943.x.
  • Reddy, N. R., Solomon, H. M., Yep, H., Roman, M. G., and Rhodehamel, E. J. 1997b. Shelf life and toxin development by Clostridium botulinum during storage of modified-atmosphere-packaged fresh aquacultured salmon fillets. J. Food Prot. 60:1055–1063. doi:10.4315/0362-028X-60.9.1055.
  • Reddy, N. R., Villanueva, M., and Kautter, A. D. 1995. Shelf life of modified-atmosphere-packaged fresh tilapia fillets stored under refrigeration and temperature-abuse conditions. J. Food Prot. 58(8):908–914. doi:10.4315/0362-028X-58.8.908.
  • Remya, S., Mohan, C. O., Venkateshwarlu, G., Sivaraman, G. K., and Ravishankar, C. N. 2017. Combined effect of O2 scavenger and antimicrobial film on shelf life of fresh cobia (Rachycentron canadum) fish steaks stored at 2°C. Food Cont. 71:71–78. doi:10.1016/j.foodcont.2016.05.038.
  • Restuccia, D., Gianfranco Spizzirri, U., Parisi, O. I., Cirillo, G., Curcio, M., Iemma, F., Puoci, F., Vinci, G., and Picci, N. 2010. New EU regulation aspects and global market of active and intelligent packaging for food industry applications. Food Cont. 21(11):1425–1435. doi:10.1016/j.foodcont.2010.04.028.
  • Rhim, J. W., and Kim, Y. T. 2014. Biopolymer-based composite packaging materials with Nanoparticles. Han, J. H., Ed. Innovations in Food Packaging. second. Elsevier Ltd: London, UK. 413–442.
  • Rodrigues, B. L., Da Silveira Alvares, T., Sampaio, G. S. L., Cobral, C. C., Araujo, J. V. A., Franco, R. M., Mano, S. B., and Juior, C. A. C. 2016. Influence of vacuum and modified atmosphere packaging in combination with UV-C radiation on the shelf life of rainbow trout (Oncorhynchus mykiss) fillets. Food Cont. 60:586–605.
  • Ronnow, P., Tsironi, T., Giannoglou, M., and Taoukis, P. S. (2015). Developing suitable smart TTI labels to match specific shelf life monitoring requirements: the case of different seafood products. 29th EFFoST International Conference. Food Science Research and Innovation: Delivering sustainable solutions to the global economy and society. Athens, Greece, November 10–12, pp. 663–668
  • Rooney, M. L. 1995. Overview of active food packaging. Rooney, M. L., ed. Active Food Packaging. Blackie Academic and Professional: Glasgow. 1–37.
  • Rosnes, J. T., Kleiberg, H. G., Sivertsvik, M., Lunestad, T. B., and Lorentzen, G. 2006. Effect of modified atmosphere packaging and superchilled storage on the shelf-life of farmed ready-to-cook spotted wolffish (Anarhichas minor). Packaging Technol. Sci. 19:325–333. doi:10.1002/pts.735.
  • Saarinen, J. J., Remonen, T., Tobjörk, D., Aarnio, H., Bollström, R., Österbacka, R., and Toivakka, M. (2015). A novel process for UV light activated oxygen indicators for modified atmosphere packages. In: Paper Conference and Trade Show (PaperCon 2015), Volume 1, Atlanta, Georgia, USA, 19–22 April 2015, pp. 21–32
  • Sängerlaub, S., Böhmer, M., and Stramm, C. 2013. Influence of stretching ratio and salt concentration on the porosity of polypropylene films containing sodium chloride particles. J Appl. Polym. Sci. 129(3):1238–1245. doi:10.1002/app.38793.
  • Scannell, A. G. M., Hill, C., Ross, R. P., Marx, S., Hartmeier, W., and Arendt, E. K. 2000. Development of bioactive food packaging materials using immobilized bacteriocins Lacticin and Nisaplin®. Int. J. Food Microbiol. 60:241–249.
  • Silbande, A., Adenet, S., Smith-Ravin, J., Joffraud, J. J., Rochefort, K., and Leroi, F. 2016. Quality assessment of ice-stored tropical yellowfin tuna (Thunnus albacares) and influence of vacuum and modified atmosphere packaging. Food Microbiol. 60:62–72. doi:10.1016/j.fm.2016.06.016.
  • Sivertsvik, M. 2003. Active packaging in practice: fish (Chapter 18). Ahvenainen, R., Ed. Novel Food Packaging Techniques. Woodhead Publishing: Cambridge. 384–400.
  • Sivertsvik, M., Jeksrud, W. K., and Rosnes, J. T. 2002. A review of modified atmosphere packaging of fish and fishery products-significance of microbial growth, activities and safety. Int. J. Food Sci. Technol. 37:107–127.
  • Skinner, G. E., and Larkin, J. W. 1998. Conservative prediction of time to clostridium botulinum toxin formation for use with time-temperature indicators to ensure the safety of foods. J. Food Prot. 61(9):1154–1160. doi:10.4315/0362-028X-61.9.1154.
  • Smolander, M. 2003. The use of freshness indicators in packaging. Ahvenainen, R., Ed. Novel Food Packaging Techniques. Woodhead Publishing Ltd: Cambridge. 127–143.
  • Smolander, M. 2008. Freshness indicators and food packaging. Kerry, J., and Butler, P., Eds. Smart Packaging Technologies for Fast Moving Consumer Goods. John Wiley and Sons Ltd: West Sussex, England. 111–127.
  • Stamatis, N., and Arkoudelos, J. 2007. Quality assessment of Scomber colias japonicas under modified atmosphere and vacuum packaging. Food Cont. 18:292–300. doi:10.1016/j.foodcont.2005.10.009.
  • Stammen, K., Gerdes, D., Caporaso, F., and Martin, R. E. 1990. Modified atmosphere packaging of seafood. Crit. Rev. Food Sci. Nutr. 29:301–331. doi:10.1080/10408399009527530.
  • Stella, S., Bernardi, C., and Tirloni, E. 2018. Influence of skin packaging on raw beef quality: A Review. J. Food Qual. Article ID 7464578 doi:10.1155/2018/7464578.
  • Stenström, I. J. 1985. Microbial flora of cod fillets (Gadus morhua) stored at 2°C in different mixtures of carbon dioxide and nitrogen/oxygen. J. Food Prot. 48:585–589.
  • Stier, R. F., Bell, L., and Ito, K. A. 1981. Effect of modified atmosphere storage on C.botulinum toxigenesis and the spoilage microflora of salmon fillets. J. Food Sci. 46:1639–1642. doi:10.1111/j.1365-2621.1981.tb04450.x.
  • Taoukis, P., and Tsironi, T. 2016. Smart packaging for monitoring and managing food and beverage shelf life, chapter 5. Food and Beverage Stability and Shelf Life. Kilcast, D., and Subramaniam, P., Eds. Cambridge, UK: Woodhead Publishing Limited. 141–168.
  • Taoukis, P. S. 2010. Commercialization of time-temperature integrators for foods (Chapter 14). Case Studies in Novel Food Processing Technologies. Innovations in Processing, Packaging and Predictive Modelling. Doona, C. J., Kustin, K., and Feeherry, F. E., Eds. Cambridge, UK: Woodhead Publishing Limited. 351–365.
  • Taoukis, P. S., and Tsironi, T. N. 2013. Novel methods for shelf life extension and management of fish products in the chill chain, Chapter 30. Aspects of Mediterranean Marine Aquaculture. Angelidis, P., Ed. Blue Crab PC Publisher: Chalastra, Greece. 549–558.
  • Taoukis, P. S., Koutsoumanis, K., and Nychas, G. J. E. 1999. Use of time-temperature integrators and predictive modeling for shelf life control of chilled fish under dynamic storage conditions. Int. J. Food Microbiol. 53:21–31.
  • Taoukis, P. S., and Labuza, T. P. 1989. Applicability of time temperature indicators as shelf life monitors of food products. J. Food Sci. 54:783–788. doi:10.1111/jfds.1989.54.issue-4.
  • Tawakkal, I. S. M. A., Cran, M. J., and Bigger, S. W. 2018. The influence of chemically treated natural fibers in poly(lactic acid) composites containing thymol. Polymer Compo. 39(4):1261–1272. doi:10.1002/pc.24062.
  • Tharanathan, R. N. 2003. Biodegradable films and compositecoatings: past, present and future. Trends Food Sci. Technol. 14:71–78.
  • Torrieri, E., Carlino, P. A., Cavella, S., Fogliano, V., Attianese, I., Buonocore, G. G., and Masi, P. 2011. Effect of modified atmosphere and active packaging on the shelf-life of fresh bluefin tuna fillets. J. Dooe Eng 105:429–435.
  • Torrieri, E., Cavella, S., Villani, F., and Masi, P. 2006. Influence of modified atmosphere packaging on the chilled shelf life of gutted farmed bass (Dicentrarchus labrax). J. Food Eng 77:1078–1086. doi:10.1016/j.jfoodeng.2005.08.038.
  • Tsironi, T., Giannoglou, M., Ntzimani, A., Kallioupi, K., Evaggelopoulou, A. M., and Taoukis, P. 2017b. Application of smart TTI labels for seafood safety monitoring in the cold chain. Seafood Safety: New Findings and Innovation Challenges. Brussels, Belgium: 25–26January 44.
  • Tsironi, T., Giannoglou, M., Platakou, E., and Taoukis, P. 2016. Evaluation of time temperature integrators for shelf-life monitoring of frozen seafood under real cold chain conditions. Food Packaging and Shelf Life. 10:46–53. doi:10.1016/j.fpsl.2016.09.004.
  • Tsironi, T., Giannoglou, M., Platakou, E., and Taoukis, P. S. 2015a. Training of SMEs for frozen food shelf life testing and novel smart packaging application for cold chain monitoring. Int. J. Food Stud 4:148–162.
  • Tsironi, T., Gogou, E., Velliou, E., and Taoukis, P. S. 2008a. Application and validation of the TTI based chill chain management system SMAS on shelf life optimization of vacuum packed chilled tuna slices. Int. J. Food Microbiol 128(1):108–115. doi:10.1016/j.ijfoodmicro.2008.09.018.
  • Tsironi, T., Maltezou, I., Tsevdou, M., Katsaros, G., and Taoukis, P. S. 2015b. High pressure cold pasteurization of gilthead seabream fillets: selection of process conditions and validation of shelf-life extension. Food and Bioprocess Technology: an International Journal. 8:681–690. doi:10.1007/s11947-014-1441-4.
  • Tsironi, T., Ronnow, P., Giannoglou, M., and Taoukis, P. 2017a. Developing suitable smart TTI labels to match specific monitoring requirements. The Case of Vibrio Spp. Growth during Transportation of Oysters. Food Control. 73:51–56.
  • Tsironi, T., Stamatiou, A., Giannoglou, M., Velliou, E., and Taoukis, P. S. 2011. Predictive modelling and selection of time temperature integrators for monitoring the shelf life of modified atmosphere packed gilthead seabream fillets. LWT-Food Sci. Technol. 44:1156–1163. doi:10.1016/j.lwt.2010.10.016.
  • Tsironi, T., and Taoukis, P. S. 2010. Modelling microbial spoilage and quality of gilthead seabream fillets: combined effect of osmotic pretreatment, modified atmosphere packaging and nisin on shelf life. J. Food Sci. 75(4):M243–M251. doi:10.1111/j.1750-3841.2010.01574.x.
  • Tsironi, T., Tsevdou, M., Velliou, E., and Taoukis, P. 2008b. Modelling the effect of temperature and CO2 on microbial spoilage of chilled gilthead seabream fillets. Acta Hortic. 802:345–350. ISHS doi:10.17660/ActaHortic.2008.802.45.
  • Unipack. (2011). Nor®Absorbit makes your food nice and crispy. (Accessed on 10 August 2018)http://news.unipack.ru/eng/37413/
  • Vanderroost, M., Ragaert, P., Devlieghere, F., and De Meulenaer, B. 2014. Intelligent food packaging: the next generation. Trends Food Sci. Technol. 39:47–62. doi:10.1016/j.tifs.2014.06.009.
  • Vermeiren, L., Devlieghere, F., Van Beest, M., de Kruijf, N., and Debevere, J. 1999. Developments in the active packaging of foods. Trends Food Sci. Technol. 10:77–86. doi:10.1016/S0924-2244(99)00032-1.
  • Villemure, G., Simaro, R. E., and Picard, G. 1986. Bulk storage of cod fillets and gutted cod (Gadus morhua) under carbon dioxide atmosphere. J. Food Sci. 42:158–162.
  • Walsh, H., and Kerry, J. P. 2012. Chapter 15. Packaging of ready-to-serve and retail-ready meat, poultry and seafood products. Advances in Meat, Poultry and Seafood Packaging. Kerry, J. P., Ed. Cambridge, UK: Woodhead Publishing. 406–436.
  • Wang, X. D., Chen, H. X., Zhao, Y., Chen, X., and Wang, X. R. 2010. Optical oxygen sensors move towards colorimetric determination. Trends Anal. Chem. 29:319–338. doi:10.1016/j.trac.2010.01.004.
  • Williams, J. R., and Myers, K. E. (2005). Compositions for detecting food spoilage and related methods. United States Patent Application Publication US 2005/0153452 A1
  • Williams, J. R., Myers, K. E., Owens, M. M., and Bonne, A. A. (2006). Food Quality Indicator. United States Patent Application Publication US 2006/0057022 A1
  • Woyewoda, A. D., Bligh, E. G., and Shaw, S. J. 1984. Controlled and modified atmosphere storage of cod fillets. Can. Inst. Food Sci. Technol. J. 17:24–27.
  • Wyrwa, J., and Barska, A. 2017. Innovations in the food packaging market: active packaging. Eur. Food Res. Technol. 243:1681–1692.
  • Yang, H., and Wang, Y. 2009. Effects of concentration on nanostructural images and physical properties of gelatin from channel catfish skins. Food Hydrocoll. 23:577–584. doi:10.1016/j.foodhyd.2008.04.016.
  • Yesudhason, P., Lalitha, K. V., Srinivasa Gopal, T. K., and Ravishankar, C. N. 2014. Retention of shelf life and microbial quality of seer fish stored in modified atmosphere packaging and sodium acetate pretreatment. Food Packaging and Shelf Life. 1(2):123–130.
  • Yildirim, S., Röcker, B., Pettersen, M. K., Nilsen-Nygaard, J., Ayhan, Z., Rutkaite, R., Radusin, T., Suminska, P., Marcos, B., and Coma, V. 2018. Active packaging applications for food. Compr. Rev. Food Sci. Food Saf. 17:165–199. doi:10.1111/crf3.2018.17.issue-1.
  • Zhang, M., Meng, X., Bhandari, B., and Fang, Z. 2015. Recent developments in film and gas research in modified atmosphere packaging of fresh foods. Crit. Rev. Food Sci. Nutr. doi:10.1080/10408398.2013.819794.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.