Ozonated water utilized for irrigation enhances root health by supplying oxygen and eliminating viruses, bacteria, fungi, seaweed, spores, and other microorganisms. This fosters rapid and consistent growth, increasing vitality and productivity levels. Ozone enhances cellular respiration, benefiting the respiratory process at the cellular level. It is widely recognized for its direct germicidal properties, effectively combating various types of microorganisms including fungi, bacteria, and viruses. Notably, ozone exhibits remarkable efficacy against bacteria such as pseudomonas, Flavobacterium, streptococcus, Legionella, and others. In the case of fungi and bacteria, which are major contributors to the degradation of vegetables, ozone proves highly effective. It can effectively inhibit the propagation and reproduction of these microorganisms, even in harsh and extreme conditions. The mentioned spores have

Ozone soil remediation refers to a method of soil decontamination that targets a wide range of pollutants such as petroleum hydrocarbons, solvents, and pesticides. The technique involves injecting ozone gas into the soil, which acts as a potent oxidant and breaks down the contaminants, converting them into less toxic substances. This eco-friendly and cost-effective method has been implemented in various contaminated sites globally, offering a reliable and efficient solution for soil remediation. Why Ozone? Ozone has been increasingly utilized to remediate sites contaminated by a diverse range of soil pollutants. It can effectively target both biodegradable compounds that decay slowly over time and non-biodegradable ones that cannot be easily degraded when attached to soil particles. Ozone is particularly advantageous over