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The real answer to the
weather challanges

with us

Agriculture is facing a great challenge. More and more problems urges us to renew former cultivation technologies and imply methods that can adapt to the ever-changing circumstances.  Agriculture currently cannot keep up with nature’s ongoing changes and cultivation cannot compete with the constantly altering environment.

The changing conditions endanger crop yield security, productivity and they mean rising costs. Besides, food safety expectations are becoming more focused worldwide, there is a growing demand for healthy food, which means that the use of chemicals in cultivation must be greatly reduced.

In the last few decades the trends in agriculture have been towards pushing the continuous increase in crop yields using special materials and technologies, which has, however, resulted in the disruption of the natural balance of the soil. Thus, because of the poor nutrient uptake by the roots, there is an increased risk for plants developing diseases caused by nutrient deficiencies. Plant resistance has decreased markedly, making them more susceptible to diseases, sensitive to environmental change impacts and extreme weather conditions.

Foliar feeding has proven to be an effective way of readily supplementing missing nutrients. Sadly, even modern foliar fertilization methods focus on providing only a small range of nutrients, which are in addition mostly of a synthetic nature.

The consequences of the use of chemicals and the industrial-scale agricultural output are well felt by the farmers themselves, now that production costs get higher and higher. The imbalance in the soil has resulted in the less-efficient use of synthetic nutrients as well, hence the need to apply more and more of them to maintain the same crop yields.

All these factors prompted us to create a technology which can adapt to these circumstances with realizing stable high yield, reducing the presence of diseases, providing higher nutrient-dense food and predictable costs, on long term bases, without causing environmental stress.

The result is an intelligent foliar fertilizer technology capable of reacting on environmental changes and of supporting, protecting the plant with reducing stress factors.

The real answer to the
weather challanges

with us

Agriculture is facing a great challenge. More and more problems urges us to renew former cultivation technologies and imply methods that can adapt to the ever-changing circumstances.  Agriculture currently cannot keep up with nature’s ongoing changes and cultivation cannot compete with the constantly altering environment.

The changing conditions endanger crop yield security, productivity and they mean rising costs. Besides, food safety expectations are becoming more focused worldwide, there is a growing demand for healthy food, which means that the use of chemicals in cultivation must be greatly reduced.

In the last few decades the trends in agriculture have been towards pushing the continuous increase in crop yields using special materials and technologies, which has, however, resulted in the disruption of the natural balance of the soil. Thus, because of the poor nutrient uptake by the roots, there is an increased risk for plants developing diseases caused by nutrient deficiencies. Plant resistance has decreased markedly, making them more susceptible to diseases, sensitive to environmental change impacts and extreme weather conditions.

Foliar feeding has proven to be an effective way of readily supplementing missing nutrients. Sadly, even modern foliar fertilization methods focus on providing only a small range of nutrients, which are in addition mostly of a synthetic nature.

The consequences of the use of chemicals and the industrial-scale agricultural output are well felt by the farmers themselves, now that production costs get higher and higher. The imbalance in the soil has resulted in the less-efficient use of synthetic nutrients as well, hence the need to apply more and more of them to maintain the same crop yields.

All these factors prompted us to create a technology which can adapt to these circumstances with realizing stable high yield, reducing the presence of diseases, providing higher nutrient-dense food and predictable costs, on long term bases, without causing environmental stress.

The result is an intelligent foliar fertilizer technology capable of reacting on environmental changes and of supporting, protecting the plant with reducing stress factors.