Document Type : Research Article
Authors
1 Department of Horticultural Science, Faculty of Agriculture, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran
2 Department of Food Science and Technology, Faculty of Animal Science and Food Technology, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Iran.
Abstract
[1]Introduction: Economic losses can occur due to the growth of fungi on foods that lead to food spoilage and plant diseases. Fruits and vegetables are often exposed to microbial activity, caused by pathogenic fungi, during post-harvest storage. Diseases of food origin are a growing public health problem. Thus, food safety has become a major public concern as microbial contamination increases the risk of foodborne illnesses and shortens the shelf life of foods. Infection with fungi such as Aspergillus, Rhizopus, and Penicillium species is considered as the primary cause of rapid spoilage of fresh produce, which reduces their quality and shelf life. Synthetic fungicides have been applied to solve this problem for many years. Nonetheless, the adverse effects of synthetic chemicals on human health and the emergence of fungicide-resistant strains have motivated the scientists and food industries to find out safe preservatives to control postharvest rot/diseases. On this point, natural antimicrobial agents such as plant extracts and essential oils are gaining more and more interest. In this study, we used Levisticum officinale Koch essential oil, which its antimicrobial and antioxidant activity has been reported in literatures.
Materials and Methods: L. officinale Koch essential oil was obtained by hydrodistillation method and its total phenol content, total flavonoids, antioxidant activity (based on DPPH and ABTS free radical scavenging and β-carotene bleaching tests) and its antifungal effect against fungi causing apple and orange rotting (Alternaria alternata, Penicillium expansum, Penicillium digitatum, Penicillium italicum, and Botrytis cinerea) were examined according to antimicrobial tests of disk diffusion agar, well diffusion agar, minimum inhibitory concentration, and minimum fungicidal concentration.
Results and Discussion:L. officinale Koch essential oil contained 61.27 ± 0.34 mg GAE/g and 20.14 ± 0.21 mg QE/g total phenol and flavonoids, respectively. Its antioxidant activity, based on DPPH free radical scavenging, ABTS free radical scavenging, and β-carotene bleaching inhibition were 69.72 ± 0.65%, 78.54 ± 0.3% and 57.50 ± 0.41%, respectively. L. officinale Koch essential oil was effective against all fungal species and the highest susceptibility was observed for Penicillium expansum. According to the results, L. officinale Koch essential oil can be used as a natural antifungal agent to prevent post-harvest diseases of fruits and vegetables.
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- Alghooneh, A., Alizadeh Behbahani, B., Noorbakhsh, H., & Yazdi, F. T. (2015). Application of intelligent modeling to predict the population dynamics of Pseudomonas aeruginosa in Frankfurter sausage containing Satureja bachtiarica Microbial pathogenesis, 85, 58-65. https://doi.org/10.1016/j.micpath.2015.06.003
- Alizadeh Behbahani, B., & Shahidi, F. (2019). Melissa officinalis essential oil: Chemical compositions, antioxidant potential, total phenolic content and antimicrobial activity. Nutrition and Food Sciences Research, 6(1), 17-25. DOI: 29252/nfsr.6.1.17
3. Alizadeh Behbahani, B., Noshad, M., & Falah, F. (2019). Study of chemical structure, antimicrobial, cytotoxic and mechanism of action of Syzygium aromaticum essential oil on foodborne pathogens. Potravinarstvo Slovak Journal of Food Sciences, 13(1), 875-883.
- Alizadeh Behbahani, B., Shahidi, F., Yazdi, F. T., & Mohebbi, M. (2013). Antifungal effect of aqueous and ethanolic mangrove plant extract on pathogenic fungus" in vitro". International Journal of Agronomy and Plant Production, 4(7), 1652-1658.
- Alizadeh Behbahani, B., Tabatabaei Yazdi, F., Shahidi, F., & Mohebbi, M. (2012). Antimicrobial activity of Avicennia marina extracts ethanol, methanol & glycerin against Penicillium digitatum (citrus green mold). Scientific Journal of Microbiology, 1(7), 147-151.
- Athari, M., Elhami Rad, A. , Nemat Shahi, M. M., & Nemat Shahi, N. (2020). Study of antioxidant properties of leaf extract of Levyticum Officinale and its effect on soybean oil stability in storage conditions. Journal of Innovation in Food Science and Technology, 12(4), 192-179.
- Azizian Shermeh, O., Taherizadeh, M., Valizadeh, M., & Qasemi, A. (2018). Antimicrobial and antioxidant activities and determining phenolic and flavonoid contents of the extracts of five species from different families of the medicinal plants grown in Sistan and Baluchestan province. Journal of Advanced Biomedical Sciences, 7(4), 465-479.
- Barzegar, H., Alizadeh Behbahani, B., & Mehrnia, M. A. (2020). Quality retention and shelf life extension of fresh beef using Lepidium sativum seed mucilage-based edible coating containing Heracleum lasiopetalum essential oil: an experimental and modeling study. Food Science and Biotechnology, 29(5), 717-728. https://doi.org/10.1007/s10068-019-00715-4
- Chaudhari, A. K., Das, S., Singh, V. K., Prasad, J., & Dubey, N. K. (2021). Assessing the Levisticum officinale essential oil as a novel preservative for stored chia seeds (Salvia hispanica L.) with emphasis on probable mechanism of action. Environmental Science and Pollution Research, 1-16. https://doi.org/10.1007/s11356-021-14985-1
- Chien, P. J., & Chou, C. C. (2006). Antifungal activity of chitosan and its application to control post‐harvest quality and fungal rotting of Tankan citrus fruit (Citrus tankan Hayata). Journal of the Science of Food and Agriculture, 86(12), 1964-1969. https://doi.org/10.1002/jsfa.2570
- Ciocarlan, A., Dragalin, I., Aricu, A., Lupaşcu, L., Ciocarlan, N., & Popescu, V. (2018). Chemical composition and antimicrobial activity of the Levisticum officinale WDJ Koch essential oil. Chemistry Journal of Moldova, 13(2), 63-68.
- Dapkevicius, A., Venskutonis, R., van Beek, T. A., & Linssen, J. P. (1998). Antioxidant activity of extracts obtained by different isolation procedures from some aromatic herbs grown in Lithuania. Journal of the Science of Food and Agriculture, 77(1), 140-146. https://doi.org/10.19261/cjm.2018.514
- Falah, F., Shirani, K., Vasiee, A., Yazdi, F. T., & Behbahani, B. A. (2021). In vitro screening of phytochemicals, antioxidant, antimicrobial, and cytotoxic activity of Echinops setifer Biocatalysis and Agricultural Biotechnology, 35, 102102. https://doi.org/10.1016/j.bcab.2021.102102
- Ghadimi, S., Heshmati, A., Shafa, M. A., & Nooshkam, M. (2016). Microbial quality and antimicrobial resistance of Staphylococcus aureus and Escherichia coli Isolated from traditional ice cream in Hamadan city, West of Iran. Avicenna Journal of Clinical Microbiology and Infection, 4(1), 39781-3978.
- Jakubczyk, A., Złotek, U., Szymanowska, U., Rybczyńska-Tkaczyk, K., Jęderka, K., & Lewicki, S. (2020). In vitro antioxidant, anti-inflammatory, anti-metabolic syndrome, antimicrobial, and anticancer effect of phenolic acids isolated from fresh Lovage Leaves [Levisticum officinale Koch] Elicited with Jasmonic Acid and Yeast Extract. Antioxidants, 9(6), 554. https://doi.org/10.3390/antiox9060554
- Kiarsi, Z., Hojjati, M., Behbahani, B. A., & Noshad, M. (2020). In vitro antimicrobial effects of Myristica fragrans essential oil on foodborne pathogens and its influence on beef quality during refrigerated storage. Journal of Food Safety, 40(3), 12782. https://doi.org/10.1111/jfs.12782
- Kozłowska, M., Ścibisz, I., Przybył, J., Ziarno, M., Żbikowska, A., & Majewska, E. (2021). Phenolic contents and antioxidant activity of extracts of selected fresh and dried herbal materials. J. Food Nutr. Sci, 71, 269-278.
- Miran, M., Feizabadi, M. M., Kazemian, H., Kardan-Yamchi, J., Monsef-Esfahani, H. R., & Ebrahimi, S. N. (2018). The activity of Levisticum officinale WDJ Koch essential oil against multidrug-resistant Mycobacterium tuberclosis. Iranian journal of microbiology, 10(6), 394.
- Miran, M., Monsef Esfahani, H., Moridi Farimani, M., Ahmadi, A. A., & Ebrahimi, S. N. (2018). Essential oil composition and antibacterial activity of Levisticum officinale Koch at different developmental stages. Journal of Essential Oil Bearing Plants, 21(4), 1051-1055. https://doi.org/10.1080/0972060X.2018.1507759
- Nikkhah, M., Habibi NAjafi, M., Hashemi, M., & Farhoosh, R. (2019). Antifungal activity and synergistic effects of thyme, cinnamon, rosemary and marjoram essential oils in combination, against apple rot fungi. Journal of Food Research, 29(1), 43-54.
- Nooshkam, M., Varidi, M., & Bashash, M. (2019). The Maillard reaction products as food-born antioxidant and antibrowning agents in model and real food systems. Food chemistry, 275, 644-660. https://doi.org/10.1016/j.foodchem.2018.09.083
- Noshad, M., Alizadeh Behbahani, B., Jooyandeh, H., Rahmati‐Joneidabad, M., Hemmati Kaykha, M. E., & Ghodsi Sheikhjan, M. (2021). Utilization of Plantago major seed mucilage containing Citrus limon essential oil as an edible coating to improve shelf‐life of buffalo meat under refrigeration conditions. Food Science & Nutrition, 9(3), 1625-1639.
- Pires, S. M., Desta, B. N., Mughini-Gras, L., Mmbaga, B. T., Fayemi, O. E., Salvador, E. M., . . . Hoejskov, P. S. (2021). Burden of foodborne diseases: think global, act local. Current Opinion in Food Science. https://doi.org/10.1016/j.cofs.2021.01.006
- Rahmati-Joneidabad, M., & Alizadeh Behbahani, B. (2021). Identification of chemical compounds, antioxidant potential, and antifungal activity of Thymus daenensis essential oil against spoilage fungi causing apple rot. Iranian Food Science and Technology Research, 17(5), 691-700.
- Rossi, Y. E., & Palacios, S. M. (2013). Fumigant toxicity of Citrus sinensis essential oil on Musca domestica L. adults in the absence and presence of a P450 inhibitor. Acta tropica, 127(1), 33-37. https://doi.org/10.1016/j.actatropica.2013.03.009
- Shafaghat, A. (2011). Chemical constituents, antimicrobial and antioxidant activity of the hexane extract from root and seed of Levisticum persicum Freyn and Bornm. Journal of Medicinal Plants Research, 5(20), 5127-5131.
- Spréa, R. M., Fernandes, Â., Calhelha, R. C., Pereira, C., Pires, T. C., Alves, M. J., . . . Ferreira, I. C. (2020). Chemical and bioactive characterization of the aromatic plant Levisticum officinale WDJ Koch: A comprehensive study. Food & function, 11(2), 1292-1303. https://doi.org/10.1039/C9FO02841B
- Tejeswini, M. G., Sowmya, H. V., Swarnalatha, S. P., & Negi, P. S. (2014). Antifungal activity of essential oils and their combinations in in vitro and in vivo conditions. Archives of Phytopathology and Plant Protection, 47(5), 564-570. https://doi.org/10.1080/03235408.2013.814235
- Vehapi, M., Koçer, A. T., Yılmaz, A., & Özçimen, D. (2020). Investigation of the antifungal effects of algal extracts on apple-infecting fungi. Archives of microbiology, 202(3), 455-471. https://doi.org/10.1007/s00203-019-01760-7
- Wojdyło, A., Oszmiański, J., & Czemerys, R. (2007). Antioxidant activity and phenolic compounds in 32 selected herbs. Food chemistry, 105(3), 940-949. https://doi.org/10.1016/j.foodchem.2007.04.038
- Yeganegi, M., Yazdi, F. T., Mortazavi, S. A., Asili, J., Alizadeh Behbahani, B., & Beigbabaei, A. (2018). Equisetum telmateia extracts: Chemical compositions, antioxidant activity and antimicrobial effect on the growth of some pathogenic strain causing poisoning and infection. Microbial pathogenesis, 116, 62-67. https://doi.org/10.1016/j.micpath.2018.01.014
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