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GERMİOO particles reduce plant sensitivity to ethylene, the hormone regulating the aging process, by replacing copper ions with GERMİOO ions in ethylene receptors. This helps prevent premature aging of plants, leading to improved productivity and a better response to abiotic stress conditions, as ethylene regulates both.

Additionally, GERMİOO particles increase the concentration of auxin, the growth hormone, in plant tissues by inhibiting the enzymes responsible for its oxidation. This results in the formation of a strong root system and improved plant growth and development.

As an elicitor – a compound that, in small concentrations, can trigger defense mechanisms of a plant – GERMİOO binds to a cell surface, accelerating production of reactive oxygen species (ROS) and initiating a signaling cascade which helps activate systemic acquired resistance (SAR). Due to systemic acquired resistance (SAR), plants can successfully complete their life cycle even when in contact with phytopathogens or under abiotic stress conditions. With SAR being non-specific in terms of pathogens or stresses, GERMİOO products that activate systemic acquired resistance are capable of protecting crops from a wide range of diseases in different climate zones.

Antioxidant species (CAT,SOD,POD,PEX), an integral part of a plant’s non-specific immune system, help activate systemic acquired resistance (SAR) as well as directly eliminate fungal and bacterial disease agents.

Due to relatively small application rates, the absence of residue in foods and the ability of colloidal GERMİOO products to successfully protect plants from diseases even without direct bactericidal or fungicidal activity, products containing GERMİOO particles are both economically efficient and totally eco-friendly and can be used to grow crops of high quality without any damage to the environment.

Thanks to systemic acquired resistance (SAR), plants can successfully complete their life cycle even when in contact with phytopathogens or under abiotic stress conditions.

Since SAR is non-specific in terms of pathogens or stresses, GERMİOO activating systemic acquired resistance can protect plants from a wide range of diseases in different climatic zones.

As a compound capable of triggering plant defense mechanisms in small concentrations, colloidal GERMİOO binds to the cell surface, accelerating the production of antioxidant species (CAT,SOD,POD,PEX) and initiating a signaling cascade that helps activate systemic acquired resistance (SAR).

Antioxidant species (CAT,SOD,POD,PEX), an integral part of a plant’s non-specific immune system, help activate systemic acquired resistance (SAR) as well as directly eliminate fungal and bacterial disease agents.