Microbial growth is widely responsible for shortened shelf life of cold water-living fish products. So, it seems that current chemical-based food packaging has no acceptable efficacy, and food industrialists tend to the usage of more novel approaches like active food packag- ing. Among them, there is a great research interest in nanotechnology-emerging approaches. This study aimed to investigate the anti-microbial efficacies of Polyethylene/ CuNP/nanoclay nanocomposites to enhance the shelf life and physiochemical features of rainbow trout. Three main nanocomposites with various concentrations of Cu and clay nanoparticles were examined. SEM, XRD, and EDX (as physiochemical analysis), disk diffusion (as antimicrobial assays), total volatile nitrogen (TVB-N), and peroxide value (PV) (as biochemical parameters) were measured. Based on the results, nanocomposites could reduce the microorganism growth rate by reducing the number of colonies (33.3%), inhibitory activities against both gram- positive (8 mm) and gram-negative bacteria (10 mm), maintenance of TVB-N (42% reduction), and PV (44% reduction) below the standard range. To sum up, these new nanocomposites can be a good candidate to enhance the shelf life of Rainbow Trout.

1 Mari A, "Validation of the micro biological survey method for total viable count and E. coli in food samples" 6 (6): 951-962, 2011

2 Gordon MH, "Understanding and Measuring the Shelf life of Food" Woodhead Publishing 128-141, 2004

3 Li M, "Toward a molecular understanding of the antibacterial mechanism of copper-bearing Titanium alloys against Staphylococcus aureus" 5 (5): 557-566, 2016

4 Haaland H, "Total volatile nitrogen—A quality criterion for fish silage?" 79 (79): 311-316, 1989

5 Tas CE, "Thermally buffering polyethylene/halloysite/phase change material nanocomposite packaging films for cold storage of foods" 292 : 110351-, 2021

6 Bondoc I., "The veterinary sanitary control of fish and fisheries products" 1 : 264-346, 2014

7 Stark C, "The effect of storage conditions on the stability of peroxide values of New Zealand grown walnuts" 2000

8 Llorens A, "Study of the antifungal potential of novel cellulose/copper composites as absorbent materials for fruit juices" 158 (158): 113-119, 2012

9 Khalaj M-J, "Study of physical and mechanical properties of polypropylene nanocomposites for food packaging application : Nano-clay modified with iron nanoparticles" 51 : 41-48, 2016

10 Ruparelia JP, "Strain specificity in antimicrobial activity of silver and copper nanoparticles" 4 (4): 707-716, 2008

11 Souza VG, "Shelf life assessment of fresh poultry meat packaged in novel bionanocomposite of chitosan/montmorillonite incorporated with ginger essential oil" 8 (8): 177-, 2018

12 Suttiponparnit K, "Role of surface area, primary particle size, and crystal phase on titanium dioxide nanoparticle dispersion properties" 6 (6): 27-, 2011

13 O¨ zyurt G, "Quality and shelf life of cold and frozen rainbow trout(Oncorhynchus mykiss)fillets : effects of fish protein-based biodegradable coatings" 18 (18): 1876-1887, 2015

14 D’Amico S, "Psychrophilic microorganisms : challenges for life" 7 (7): 385-389, 2006

15 Gounot AM, "Psychrophilic and psychrotrophic microorganisms" 42 (42): 1192-1197, 1986

16 Choi RN, "Preparation and properties of polypropylene/clay nanocomposites for food packaging" 76 (76): N62-N67, 2011

17 Davachi SM, "Preparation and characterization of antibacterial, eco-friendly edible nanocomposite films containing Salvia macrosiphon and nanoclay" 113 : 66-72, 2018

18 Xue B, "Preparation and characterization of a novel anticorrosion material : Cu/LLDPE nanocomposites" 52 (52): 96-101, 2011

19 Weaver L, "Potential action of copper surfaces on meticillin-resistant Staphylococcus aureus" 109 (109): 2200-2205, 2010

20 Saravanakumar K, "Physical and bioactivities of biopolymeric films incorporated with cellulose, sodium alginate and copper oxide nanoparticles for food packaging application" 2020

21 Saravanakumar K, "Physical and bioactivities of biopolymeric films incorporated with cellulose, sodium alginate and copper oxide nanoparticles for food packaging application" 153 : 207-214, 2020

22 Balakrishnan H, "Novel toughened polylactic acid nanocomposite: mechanical, thermal and morphological properties" 31 (31): 3289-3298, 2010

23 Khoshnoudi-Nia S, "Nondestructive determination of the total volatile basic nitrogen(TVB-N)content using hyperspectral imaging in Japanese threadfin bream(Nemipterusjaponicus)fillet" 15 (15): 113-122, 2020

24 Alfei S, "Nanotechnology application in food packaging : A plethora of opportunities versus pending risks assessment and public concerns" 137 : 109664-, 2020

25 Demitri C, "Nanostructured active chitosan-based films for food packaging applications : effect of graphene stacks on mechanical properties" 90 : 418-423, 2016

26 Bumbudsanpharoke N, "Nanoclays in food and beverage packaging" 2019

27 De Kievit TR, "Multidrug efflux pumps : expression patterns and contribution to antibiotic resistance in Pseudomonas aeruginosa biofilms" 45 (45): 1761-1770, 2001

28 Sitthisak S, "Molecular characterization of the copper transport system in Staphylococcus aureus" 153 (153): 4274-4283, 2007

29 Refae R, "Microbiological hazard analysis during manufacturing of food packaging materials"

30 Llorens A, "Metallic-based micro and nanocomposites in food contact materials and active food packaging" 24 (24): 19-29, 2012

31 Zhong Y, "Mechanical and oxygen barrier properties of organoclay-polyethylene nanocomposite films" 47 (47): 1101-1107, 2007

32 Tornuk F, "LLDPE based food packaging incorporated with nanoclays grafted with bioactive compounds to extend shelf life of some meat products" 64 (64): 540-546, 2015

33 Mohammadzadeh-Vazifeh M, "Investigation of the antimicrobial properties of nanoclay and chitosan based nanocomposite on the microbial characteristics of Gouda cheese" 12 (12): 121-126, 2020

34 Kalpana S, "Intelligent packaging : Trends and applications in food systems" 93 : 145-157, 2019

35 Tian F, "Influence of nonmigratory metal-chelating active packaging film on food quality : Impact on physical and chemical stability of emulsions" 151 : 257-265, 2014

36 Maghami M, "Influence of chitosan nanoparticles and fennel essential oils(Foeniculum vulgare)on the shelf life of Huso huso fish fillets during the storage" 7 (7): 3030-3041, 2019

37 Barani S, "Increasing the shelf life of pikeperch(Sander lucioperca)fillets affected by low-density polyethylene/ Ag/TiO2 nanocomposites experimentally produced by sol-gel and melt-mixing methods" 21 (21): 1923-1936, 2018

38 Cai S, "High-throughput fabrication method for producing a silver-nanoparticles-doped nanoclay polymer composite with novel synergistic antibacterial effects at the material interface" 9 (9): 21105-21115, 2017

39 Yang D, "High-surface-area disperse silica nanoparticles prepared via sol-gel method using L-lysine catalyst and methanol/water co-solvent" 125700-, 2020

40 Zhong T, "Food Preservation" Academic Press 671-702, 2017

41 Jongjareonrak A, "Fatty acids and their sucrose esters affect the properties of fish skin gelatinbased film" 222 (222): 650-657, 2006

42 Ghasemian E, "Evaluating the effect of copper nanoparticles in inhibiting Pseudomonas aeruginosa and Listeria monocytogenes biofilm formation" 8 (8): e17430-, 2015

43 Ionel B., "European regulation in the veterinary sanitary and food safety area, a component of the European policies on the safety of food products and the protection of consumer interests: A 2007 retrospective. Part two: Regulations" Universul Juridic (Suplim) 16-19, 2018

44 Arashisar S¸, "Effects of modified atmosphere and vacuum packaging on microbiological and chemical properties of rainbow trout(Oncorynchus mykiss)fillets" 97 (97): 209-214, 2004

45 Pandey S, "Effect of nanoparticle on the mechanical and gas barrier properties of thermoplastic polyurethane" 146 : 468-474, 2017

46 Molinaro S, "Effect of nanoclay-type and PLA optical purity on the characteristics of PLA-based nanocomposite films" 117 (117): 113-123, 2013

47 Abdou ES, "Effect of chitosan and chitosannanoparticles as active coating on microbiological characteristics of fish fingers" 2 (2): 158-169, 2012

48 Falguera V, "Edible films and coatings: structures, active functions and trends in their use" 22 (22): 292-303, 2011

49 Pereira de Abreu DA, "Development of new polyolefin films with nanoclays for application in food packaging" 43 (43): 2229-2243, 2007

50 Campos CA, "Development of edible films and coatings with antimicrobial activity" 4 (4): 849-875, 2011

51 Lomate GB, "Development of antimicrobial LDPE/Cu nanocomposite food packaging film for extended shelf life of peda" 16 : 211-219, 2018

52 Shams B, "Development of antibacterial nanocomposite: whey protein-gelatin-nanoclay films with orange peel extract and tripolyphosphate as potential food packaging" 2019

53 Kanatt SR, "Development of active/intelligent food packaging film containing Amaranthus leaf extract for shelf life extension of chicken/fish during chilled storage" 24 : 100506-, 2020

54 Arfat YA, "Deciphering the potential of guar gum/Ag-Cu nanocomposite films as an active food packaging material" 157 : 65-71, 2017

55 Karlin K, "Copper-Oxygen Chemistry" 2011

56 Bondoc I, "Controlul sanitar veterinar al calita˘¸ii s t ¸i salubrita˘¸ii alimentelor: Editura‘‘ Ion Ionescu de la Brad’’"

57 Taheri A, "Comparison the functional properties of protein Hydrolysates from poultry byproducts and rainbow trout" 12 (12): 154-169, 2013

58 Normanno G, "Coagulase-positive Staphylococci and Staphylococcus aureus in food products marketed in Italy" 98 (98): 73-79, 2005

59 Morihama ACD, "Clay nanoparticles effects on performance and morphology of poly(vinylidene fluoride)membranes" 31 : 79-93, 2014

60 Avella M, "Biodegradable starch/clay nanocomposite films for food packaging applications" 93 (93): 467-474, 2005

61 Abou-Elela JM, "Bacteriological quality and metal contents of Diplodus vuljaris and Siganus rivuloyus in the eastern harbour water : A comparative study of freshly harvested and market fish" 30 : 216-225, 2004

62 Morsy M, "Applicability of biosensor and oxygen sensor for monitoring spoilage and bacterial contaminants of packed minced beef and poultry" 2014

63 Biemer JJ, "Antimicrobial susceptibility testing by the Kirby-Bauer disc diffusion method" 3 (3): 135-140, 1973

64 Beigmohammadi F, "Antibacterial properties of LDPE nanocomposite films in packaging of UF cheese" 65 : 106-111, 2016

65 Haaland H, "Ammonia (NH3) and total volatile nitrogen (TVN) in preserved and unpreserved stored, whole fish" 44 (44): 335-342, 1988

66 Xia Y, "Advances in Food and Nutrition Research" Academic Press 275-298, 2019

67 Ozdemir M, "Active food packaging technologies" 44 (44): 185-193, 2004

68 Warheit DB, "A role for nanoparticle surface reactivity in facilitating pulmonary toxicity and development of a base set of hazard assays as a component of nanoparticle risk management" 21 (21): 61-67, 2019

69 Barriuso B, "A review of analytical methods measuring lipid oxidation status in foods : a challenging task" 236 (236): 1-15,

70 Abdollahi M, "A novel active bionanocomposite film incorporating rosemary essential oil and nanoclay into chitosan" 111 (111): 343-350, 2012

71 Reza Gheisari H, "A comparative study of the biochemical and functional properties of camel and cattle meat during frozen storage" 79 (79): 51-68, 2009