Study of Antimicrobial Properties of Nano Chitosan with Marjoram Essential Oil in Increasing the Shelf-Life of Shrimp (Nephropidae) at Refrigerated Temperature
Subject Areas : food microbiologyZ. Saeidi 1 , H. Ahari 2 , S.A.A. Anvar 3
1 - M.Sc. Graduated of the Department of Food Science and Technology, Science and Research Branch, Islamic Azad University, Tehran, Iran.
2 - Associate Professor of the Department of Food Science and Technology, Science and Research Branch, Islamic Azad University, Tehran, Iran.
3 - Assistant Professor of the Department of Food Hygiene, Science and Research Branch, Islamic Azad University, Tehran, Iran.
Keywords: Antimicrobial properties, Marjoram Essential Oil, Nano-Chitosan, Shelf Life, shrimp,
Abstract :
The food lasting and its persistence can be increased by adding plant essential oils to the edible films such as chitosan. In the view of the increasing use of nanotechnology in the production of antimicrobial agents and the improvement of the properties of nano-sized compounds in comparison with the primary compounds, the antimicrobial properties of nano-chitosan with marjoram essential oil concentrations to increase the shelf-life of shrimp at refrigeration temperature has been studied. In this study, 1% and 2% concentrations of marjoram essential oil individually and with nano-chitosan with the concentration of 2% was prepared. Six different treated groups were examined for microbial, chemical, and sensory evaluations for 14 days. The results of this study showed that during storage time the total amount of volatile nitrogen increased significantly (P≤0.05), which is the indication of shrimp protein hydrolysis. there was no significant difference between treatments in terms of pH. The amount of malondialdehyde decreased up to day seven and was increased afterward. The coliform bacteria and Staphylococcus aureus count showed a significant difference between the control and other treatments, and with increasing storage time the bacteria count decreased. According to the results, nano-chitosan containing marjoram essential oil is a very suitable substitute for chemical and industrial coatings.
Abdollahi, M., Rezaei, M. & Farzi, G. (2012). Improvement of active chitosan film properties with rosemary essential oil for food packaging. International Journal of Food Science & Technology, 47(4), 847-853.
Alak, G., Hisar, S. A., Hisar, O., Kaban, G. & Kaya, M. (2010). Microbiological and Chemical Properties of Bonito Fish (Sarda sarda) Fillets Packaged with Chitosan Film, Modified Atmosphere and Vacuum. Kafkas Univ Vet Fak Derg, 16 (Suppl-A), S73-S80.
Alparslan, Y., Yapıcı, H. H., Metin, C., Baygar, T., Günlü, A. & Baygar, T. (2016). Quality assessment of shrimps preserved with orange leaf essential oil incorporated gelatin. LWT-Food Science and Technology, 72, 457–466.
ASsik, E. & Candogan, K. (2014). Effects of chitosan coatings incorporated with garlic oil on quality characteristics of shrimp. Journal of Food Quality, 1-10.
Beyki, M., Zhaveh, S., Khalili, S. T., Rahmani-Cherati, T., Abollahi, A., Bayat, M., Tabatabaei, M. & Mohsenifar, A. (2014). Encapsulation of Mentha piperita essential oils in chitosan-cinnamic acid nanogel with enhanced antimicrobial activity against Aspergillus flavus. Industrial Crops and Products, 54, 310–319
Dai, J. & Mumper, R. J. (2010). Plant Phenolics: Extraction, Analysis and Their Antioxidant and Anticancer Properties. Molecules, 15, 7313– 7352.
Dave, D. & Ghaly, A. E. (2011). Meat Spoilage Mechanisms and Preservation Techniques: A Critical Review. American Journal of Agricultural and Biological Sciences, 6(4), 486-510.
Elsabee, M., Morsi, R. & Hassan, M. (2011). Chitosan-Oregano Essential Oil Blends Use as Antimicrobial Packaging Material. In book: Antimicrobial Food Packaging, Chapter: 44, Publisher: Elsevier Science, Editors: Jorge Barros-Velazquez, pp.539-552. DOI: 10.1016/B978-0-12-800723-5.00044-9
Feyzioglu, G. C. & Tornuk, F. (2016). Development of chitosan nanoparticles loaded with summer savory (Satureja hortensis L.) essential oil for antimicrobial and antioxidant delivery applications. Food Science Technology, 70, 104–110.
Ghaderi-Ghahfarokhi1, M. M., Barzegar, M. A., Sahari1, H., Ahmadi Gavlighi1, F. & Gardini. (2017). Chitosan-cinnamon essential oil nano-formulation: Application as a novel additive for controlled release and shelf life extension of beef patties, International Journal of Biological Macromolecules, http://dx.doi.org/doi:10.1016/j.ijbiomac.2017.04.002.
Goli, R. & Ghasemi-Varnamkhasti, M. (2013). Recent Applications of Physical Methods of Determining The Freshness and Quality Of Shrimp. 8th National Congress of Agricultural Machinery Engineering (Biosystems); Mashhad, Iran. [In Persian].
Gómez-Estaca, J., López de Lacey, A., López-Caballero, M. E., Gómez-Guillén, M. C. & Montero, P. (2010) Biodegradable gelatin–chitosan films incorporated with essential oils as antimicrobial agents for fish preservation. Food Microbiology, 27, 889–896.
Hosseini, S. F., Rezaei, M., Zandi, M. & Farahmand Ghavi, F. (2015). Effect of fish gelatin coating enriched with oregano essential oil on the quality of refrigerated rainbow trout fillet. Journal of Aquatic Food Product Technology, 25(6), 835–842.
Janjarasskul, T., Tananuwong, K., Kongpensook, V., Tantratian, S. & Kokpol, S. (2016). Shelf life extension of sponge cake by active packaging as an alternative to direct addition of chemical preservatives. Food Science and Technology, 72, 166– 174.
Karimi Reza Abad, M., khodanazry, H. & Sensei, Q. M. (2016). Effect of Chitosan Coating and Coating on Qualitative Properties of Lethrinus nebulosus during Storage in a Refrigerator. Journal of Veterinary Research and Biological Products, 116, 252-263
Khoda Nazari, A. & Pourashouri, P. (2016). The chemical, microbial and enzymatic changes made by the Otolithes ruber and the abdominal cavity during ice storage. Journal of Veterinary Research and Biologicals, 117, 155-167
Krochta, J. (2002). Proteins as Raw Materials for Films and Coatings: Definitions, Current Status, and Opportunities. Protein-Based Film. Coatings, doi:10.1201/9781420031980.ch1.
López de Dicastillo, C., Bustos, F., Guarda, A. & Galotto, M. J. (2016). Cross-linked methyl cellulose films with murta fruit extract for antioxidant and antimicrobial active food packaging. Food Hydrocolloids, 60, 335–344.
Nakatsu, T., Lupo, T., Chinn, W. & Kang, L. (2000). Biological activity of essential oils and their constituents. Studies in Natural Products Chemistry, 21, 571–631.
Nirmal, N. P. & Benjakul, S. (2011). Retardation of quality changes of Pacific white shrimp by green tea extract treatment and modified atmosphere packaging during refrigerated storage. International Journal of Food Microbiology, 149(3), 247–253.
Perricone, M., Arace, E., Corbo, M. R., Sinigaglia, M. & Bevilacqua, A. )2015(. Bioactivity of essential oils: a review on their interaction with food components. Front Microbiology 6, 76.
Pormolaie, F. & Jafarpour, S. (2017). Antioxidant and Antibacterial Effects of Origanum Vulgare L. Marjoram Essential Oil on Surimi Sustainability from Cyprinus Carpio in the course of the maintenance period at C 18. Fisheries, Journal of Natural Resources of Iran, 1 70, p. 44-59.
Raut, J. S. & Karuppayil, S. M. (2014). A status review on the medicinal properties of essential oils. Industrial Crops and Products, 62, 250–264.
Rizzolo, A., Bianchi, G., Povolo, M., Migliori, C. A., Contarini, G., Pelizzola, V. & Cattaneo, T. M. P. (2016) Volatile compound composition and antioxidant activity of cooked ham slices packed in propolis-based active packaging. Food Packaging Shelf Life, 8, 41–49
Younes, I. & Rinaudo, M. )2015(. Chitin and Chitosan Preparation from Marine Sources. Structure, Properties and Applications. Marine Drugs. 13, 1133-1174.
Wang, Y., Liu, L., Zhou, J., Ruan, X., Lin, J. & Fu, L. (2014). Effect of Chitosan Nanoparticle Coatings on the Quality Changes of Postharvest Whiteleg Shrimp, Litopenaeus vannamei, During Storage at 4°C. Food and Bioprocess Technology, Published Online: 17 December 2014.