Essential oils (EOs) have gained increasing attention as natural alternatives to synthetic food preservatives due to their broad-spectrum antimicrobial, antioxidant, and antigenotoxic properties. Derived from aromatic plants, EOs possess complex chemical compositions rich in bioactive compounds such as terpenes, phenolics, and aldehydes, which contribute to their effectiveness against foodborne pathogens, oxidative spoilage, and genotoxic contaminants. This review provides a comprehensive examination of the potential of EOs in food preservation, highlighting their mechanisms of action, including membrane disruption, efflux pump inhibition, and reactive oxygen species scavenging. Standard assays such as disk diffusion, MIC/MBC, time-kill kinetics, and comet and micronucleus tests are discussed as tools for evaluating efficacy and safety. Additionally, the use of EOs in diverse food matrices and the reduction in reliance on synthetic additives support cleaner-label products and improved consumer health. The review also examines the sustainability outlook, highlighting the potential for extracting EOs from agricultural byproducts, their integration into green food processing technologies, and alignment with the circular economy and the Sustainable Development Goals. Despite promising results, challenges remain in terms of sensory impact, regulatory approval, and dose optimization. Overall, EOs represent a multifunctional and sustainable solution for modern food preservation systems.
Gonçalves et al. (Wed,) studied this question.