A new approach on essential oil production of Origanum onites L.: Microbial fertilization and microwave extraction

In many studies plant and microbe interaction has been observed due to its stimulating effect on plant oil content. Bacillus spp. isolates used as microbial fertilizer/biostimulant have shown a higher potential for enhancing plant production and quality. However, there is still a need for investigating the essential oil content of plants, particularly for the pharmaceutical industry, to increase the targeted essential oil quantity and quality. Thyme is a crucial plant in medicinal aromatic herbal production and export, and its economic value is steadily increasing due to its high essential oil content. This study explores a novel approach to increase essential oil content through microbial fertilization (biostimulation) and microwave extraction methods. The microwave extraction method offers comparable yields to other methods, requiring less time, energy, and only a small amount of water to hydrate the dried plants. Microbial fertilizer formulations were applied to Izmir thyme (Origanum onites L.) to assess their effects on yield and quality. Three distinct microbial fertilizer formulations (N, P, NP) containing bacterial isolates of Bacillus subtilis and Bacillus megaterium, as well as a consortium of these two bacteria, were employed in this study. Among the applications on Izmir thyme, the NP formulation (a combination of two bacteria at a dosage of 6 L/ha(-1)) exhibited the highest efficacy in terms of yield and quality criteria. Moreover, the essential oil ratios (1-2%) obtained from the same fertilizer application, using microwave extraction to enhance quality and accelerate the extraction process, yielded higher than other methods. This study provides preliminary data and a new approach to regulate and enhance the targeted yield and essential oil content of thyme plants by utilizing microbial fertilizer applications and the microwave extraction method.

Automated summary

This study explores a novel approach to increase essential oil content of thyme plants through microbial fertilization and microwave extraction methods. The use of microbial fertilizer formulations significantly enhances yield and quality. Microwave extraction method offers comparable yields to other methods, while saving time and energy.