Aeromonas hydrophila is an important pathogenic agent in aquatics and zoonotic in humans. This pathogenic agent can extensively be found in water and also is a part of fishes' digestive system microflora. Extensive researches have been carried out on the antimicrobial effects of natural compounds against food-borne pathogens, indicating that these products can substitute antibiotics. Essential oils of Thymus carmanicus, Zataria multiflora, Cinnamomum verum, Rosmarinus officinalis have antimicrobial effects due to their phenolic compounds. In this study, the bioactive compounds were detected using Gas Chromatography equipped with the mass spectrometer. Then minimum inhibitory concentrations and minimum bactericidal concentrations of the essential oils against A. hydrophila were calculated. According to the results, the lowest and the highest MIC and the minimum MBC were observed in T. carmanicus and Z. multiflora, respectively. The result indicated that the inhibition zone diameter increased with the increase of essential oil concentration. The inhibition zone, in the concentration of 1500 ug mL-1 T. carmanicus was 24.33±0.57 mm. The findings of this study showed the antimicrobial resistance of these compounds. Considering the increasing limitations against chemicals and antibiotics, such compounds could be recommended for prevention.
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