COAT IT

FertICare® Line is a liquid,
micronutrient coating
for granular fertilizer.

FertICare® Line is a liquid,
micronutrient coating for granular fertilizer.

FertICare® Line is a liquid,
micronutrient coating for
granular fertilizer.

Enhance the performance of your soil-applied NPK fertilizer, by coating every granule with essential micronutrients ensuring even distribution across your field, immediate uptake, strong early root growth, and higher yields.

Enhance the performance of your soil-applied NPK fertilizer, by coating every granule with essential micronutrients ensuring even distribution across your field, immediate uptake, strong early root growth, and higher yields.

Enhance the performance of your soil-applied NPK fertilizer, by coating every granule with essential micronutrients ensuring even distribution across your field, immediate uptake, strong early root growth, and higher yields.

View All FertiCare Line Products
ProductAnalysisTechnology

FertiCare AllCoat

6.0% Zn, 2.0% Mn, 0.5% B, 0.05% Mo, 0.1% IBA

PGE

FertiCare BoronCoat

8.1% B


FertiCare CuCoat

4.2% Cu


FertiCare FeCoat

4.0% Fe


FertiCare ManCoat

5.5% Mn, 0.45% B, 0.5% Mo


FertiCare ZincCoat

10.0% Zn, 0.5% B


PAC technology uses natural, plant-derived carbohydrates chelate essential nutrients to enhance uptake and optimize usage by the plant. 

Naturally chelated with PAC™ technology, ensuring efficient and immediate uptake and metabolism of nutrients for maximum benefits. maximum nutritional benefits. 

Improve ROI and achieve higher yields with lower nutrient application rates compared to other coatings.

Built-in micronutrient package designed to enhance the performance of existing NPK, and soil-applied fertilizers.

Convenient and easy-to-use water-based formulation eliminates dusting and micronutrient loss during application.

EFFICIENT

Soil tests that call for many pounds of micronutrients are often not properly calibrated and are seldom correlated to yield. When they are linked to crop responses, the recommendations are coming from fields where inefficient granular micronutrient sources were used, which inflates the soil test recommendations. These inefficiencies come from both the inconsistent placement of granular micronutrients across a field and from fertilizer sources that have limited availability or low solubility, such as oxides and oxysulfates. 

Soil tests that call for many pounds of micronutrients are often not properly calibrated and are seldom correlated to yield. When they are linked to crop responses, the recommendations are coming from fields where inefficient granular micronutrient sources were used, which inflates the soil test recommendations. These inefficiencies come from both the inconsistent placement of granular micronutrients across a field and from fertilizer sources that have limited availability or low solubility, such as oxides and oxysulfates. 

Soil tests that call for many pounds of micronutrients are often not properly calibrated and are seldom correlated to yield. When they are linked to crop responses, the recommendations are coming from fields where inefficient granular micronutrient sources were used, which inflates the soil test recommendations. These inefficiencies come from both the inconsistent placement of granular micronutrients across a field and from fertilizer sources that have limited availability or low solubility, such as oxides and oxysulfates. 

For more information or to request a label or SDS, please contact us.