Our Fertilizer
Envirolizer® is natural plant growth supplement applied through foliar spraying method. It enables efficient delivery of calcium, silicon and other nutrients to plant due to micron and submicron natural calcite particles manufactured by proprietary advance micronization technology (AMT). Being natural deposit rock, Envirolizer® contains calcite, silica and calcite-related minerals such as dolomite and ankerite that are made bioavailable via AMT.
Frequent use of Envirolizer® use results in:
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Significant improvement in plant growth and productivity due to increased photosynthetic activity and nutrient uptake.
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Increased resistance to negative effects of high environmental temperatures and hydro-stress.
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Increased resistance to plant diseases, especially fungal ones.
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Increased biosynthesis of secondary metabolism products.
Discovery
Envirolizer® works as effective supplement of bioavailable calcium and orthosilicic acid for your plant. Silicon and calcium depletion are limiting factors contributing to declining yields.
While calcium promotes efficient chloroplast protein transport and photosynthetic activity (resulting in better nutrient uptake and yield), silicon alleviates biotic and abiotic stress and provides physical barrier against pest.
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Envirolizer® is ecological product manufactured by proprietary micronization technology (AMT).
Use:
Envirolizer® is mixed with water and this obtained suspension has to be sprayed all over the leaves of the plants.
Dosing:
Orchards and vineyards: 2-2.5 kg/ha
Vegetable gardens: 1.5 kg/ha. Agriculture: 1.5-2 kg/ha.
For small surfaces: 1 tea spoon (approx. 5g) on 1 liter of water.
Envirolizer® is applied 3 to 5 times during the vegetation period each 15 to 30 days (see application calendar).
Download How To Apply the FertilizerAMT – Technology
Diminution of particle size is often essential method for achieving improved solubility or enhanced biological response of material. Our base technology (AMT) assumes “top-down” micronization approach with highly dynamic milling conditions.
Such extreme conditions lead to fast and effective reduction of particle size and increase in surface area which is essential for increased reactivity and biological interactions.
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