KeyPlex 1000D is a formulation of micro-nutrients most often found deficient in commercial crops and trees. It contains alpha-keto acids, which may facilitate utilization of micronutrients, and increase resistance to environmental stress. It also contains humic acid, which may enhance soil micronutrient availability.
KeyPlex 1200D is a formulation of micro-nutrients most often found deficient in commercial crops and trees. It contains alpha-keto acids, which may facilitate utilization of micronutrients, and increase resistance to environmental stress. It also contains humic acid, which may enhance soil micronutrient availability.
KeyPlex 1400D (4-0-0) is a formulation of micro-nutrients most often found deficient in commercial crops and trees. It contains alpha-keto acids, which may facilitate utilization of micronutrients, and increase resistance to environmental stress. It also contains humic acid, which may enhance soil micronutrient availability.
Developed for use on citrus, tropical fruits, stone fruits, pome fruits, nuts grapes, and corn or other row crops KeyPlex 625D is a formulation of micronutrients most often found deficient in citrus trees, other fruit trees, nut trees and corn. It contains alpha-keto acids, which may facilitate utilization of micronutrients, and increase resistance to environmental stress.
A balanced formulation of secondary and micronutrients sufficient for maintaining most crops free of nutrient deficiency symptoms. Plus an added bonus of enhanced alpha keto acids.
IronPlex is a formulation of chelated iron. It contains alpha-keto acids, which may facilitate utilization of micronutrients, and increase resistance to environmental stress.
KeyPlex Calcium Plus is a formulation of chelated calcium. It contains alpha-keto acids, which may facilitate utilization of micronutrients, and increase resistance to environmental stress.
KeyPlex 445 is a formulation of micronutrients most often found deficient in citrus trees, other fruit trees, nut trees and corn. It contains alpha-keto acids, which may facilitate utilization of micronutrients, and increase resistance to environmental stress.
