MIKROCHELAT Fe-13

MIKROCHELAT Fe-13
EDTA chelated iron (130 g Fe per kg) in the form of readily soluble in water ultra-granulate
Intended use
agricultural crops, cotton, flax, fruit trees, olive trees, fruit bushes, berries, grapevine, citrus, coffee, vegetables, ornamentals, lawns, plant nurseries
Technique of application
foliar sprays, fertigation, soil spraying, soil watering, scattering after mixing with other fertilizers
Available packaging
  •     1kg; 5kg; 25kg
Directions for use
Foliar sprays

MIKROCHELAT Fe-13 contains 130 g Fe per kg (13% Fe). Iron is fully chelated by EDTA.

Iron in the form of chelate is rapidly absorbed, transported, and assimilated by plants. 

 

MIKROCHELAT Fe-13 is certified for use in organic farming.

 

MIKROCHELATE Fe-13 is intended for use in different fertilization techniques including:

  • Foliar nutrition;
  • Fertigation (in inert or organic substrates, in the ground);
  • Soil spraying, soil watering or scattering after mixing with other soil fertilizers.

MIKROCHELATE Fe-13 can also be used as:

  • A component of liquid or powder fertilizer mixtures;
  • An Iron source for other chemicals.

 

Iron supplied to plants in MIKROCHELAT Fe-13 is:

  • Efficiently and quickly taken up by plants from solutions in foliar nutrition, in fertilization treatments combined with watering (fertigation), and from the soil after soli fertilization;
  • Safe for plants in all treatment techniques (according to the recommended doses);
  • Stable in multicomponent solutions (in a pH range up to 7) used in foliar treatments, fertigation, and soil spraying.

 

Nutrients g/kg % by mass
Iron (Fe) chelated by EDTA 130 13.0

 

MIKROCHELAT Fe-13 is essential for crops with high demand for iron, i.e. sorghum, beans, soybean, peanuts, beets, cabbage, broccoli, cauliflower, spinach, tomato, pepper, citrus, strawberry, acidophilic plants grown on soils with neutral or alkaline pH. It is also recommended for soil conditions restricting the availability of iron for plants (high pH, high manganese content, lack of oxygen in the root zone).

 

MIKROCHELAT Fe-13 used preventively in the recommended periods and doses prevents iron deficiency in plants.

MIKROCHELAT Fe-13 used as intervention effectively eliminates iron deficiency and reduces negative effects of such periodic scarcity.

Intervention nutrition is necessary in case of visual symptoms of iron deficiency on plants or when the results of the analysis of the plant material indicate too low content of iron (hidden deficiencies).

 

 

 

Iron supplied in MIKROCHEALT Fe-13 has a positive effect on the size and quality of yield. Iron in the plant affects and improves the:

  • Intensity of chlorophyll production;
  • Biomass content and proper growth and development of plants;
  • Overall condition of plants;
  • Resistance to stress and faster recovery of plants;
  • Quality parameters of yield;
  • and reduces the risk of excessive accumulation of nitrates and harmful nitrites in yield.

 

MIKROCHELAT Fe-13 has a very good performance properties including:

  • Fast solubility due to the unique structure of ultra-granules;
  • Total solubility – a solution formed after reconstitution ultra-granules is precipitation free;
  • Very good solubility in cold and hard water;
  • No dust during pouring into the tank with water;
  • High resistance to external factors during storage (no clumping).

 

 Physical and chemical properties of MIKROCHELAT Fe-13 chelate solutions include:

  • The product is stable in the pH range of 1–7;
  • Solubility in deionized water – approx. 300 g/L;
  • EC in deionized water: 0.1 % solution – 0.42 mS/cm;
  • pH in deionized water: 0.1 % solution – 8.1.

 

MIKROCHELAT Fe-13 may be used in different fertilization techniques, including foliar sprays, fertigation, soil spraying, soil watering and scattering after mixing with other fertilizers.

 

  1. FOLIAR SPRAYS
    MIKROCHELAT Fe-13 is intended for foliar application in the form of an aqueous solution. MIKROCHELAT Fe-13 can be used together with other agrochemicals after conducting a miscibility test. Test results are presented in the table INTERMAG agrochemicals mixing table.
    Detailed recommendations for foliar application are presented in the table below. You can also use the search engine and quickly find the dose rate and time of foliar application for your crop. Select your crop

Use MIKROCHELAT Fe-13 as intervention in the case of visual symptoms of iron deficiency in plants or if too low content of this component in plants has been diagnosed, and also in the event of root system flooding. Treatments should be performed every 3–5 days until deficiency disappears.

Dose rates of MIKROCHELAT Fe-13 include:

  • Agricultural crops, fruit trees, grapevine:: 0.5–1 kg/ha
  • Fruit shrubs, strawberry, vegetables, ornamental plants: 0.2–1 kg/ha

Use MIKROCHELAT Fe-13 preventively in periods and doses given below.

 

  1. FERTIGATION (fertilizing combined with watering) of crops in inert or organic substrates, in the ground
    Specific recommendations (medium composition and the frequency of application) shall take into account the nutritional requirements of plants and agronomic and climatic conditions of cultivation (including the type of substrate).
    The calculations shall take into account the content of iron (Fe) in other fertilizers used to prepare the medium and in water used to prepare the medium.
  • Fertigation in inert substrates and coconut substrate, and hydroponic cultivation (medium supplied continuously or repeatedly during the day).
    Most frequently recommended iron (Fe) content in a ready to use medium is 1–3 mg Fe / L (i.e. 7.7–23 g of MIKROCHELAT Fe-13 in 1,000 L). When preparing concentrated solutions, the dose rate of MIKROCHELAT Fe-13 should be increased accordingly.
  • Fertigation in organic substrates and in the ground (medium supplied periodically - repeatedly during the vegetation period).
    When using MIKROCHELAT Fe-13 with other fertilizers in a ready to use medium, do not exceed a total concentration of 0.2% of all ingredients (i.e. 2 kg and/or L in 1,000 L of medium).

Recommended amount of MIKROCHELAT Fe-13 in the whole growing season (in divided doses max. 2 kg/ha in one cycle):

  • Pome and stone fruit trees, nuts, citrus, mango, avocado, olive trees, banana trees, palm trees, coffee, pineapple: 5–10 kg/ha
  • Grapevine, fruit shrubs, strawberry, vegetables, ornamental plants: 4–8 kg/ha

 

  1. SOIL SPRAYING, SOIL WATERING, SCATTERING after mixing with other soil fertilizers
    Spray the soil with an aqueous solution of chelate before sowing or seedlings planting, or use in combination with other soil fertilizers. For fruit trees (e.g. pear tree) spray the soil after start of vegetation or in other recommended period. Spray (large volume spray) the soil on cloudy and humid days or when it rains.

Recommended amount of MIKROCHELAT Fe-13 in the whole growing season:

  • Pome and stone fruit trees, nuts, citrus, mango, avocado, olive trees, banana trees, palm trees, coffee, pineapple: 5–10 kg/ha
  • Grapevine: 10–20 kg/ha
  • Fruit shrubs, strawberry, vegetables, ornamental plants: 3–10 kg/ha

 

Ad. 1. Recommendations for foliar application for selected crops.
The recommendations may be modified taking into account the plants' requirements and growing conditions.

WHEAT winter crop
Number of foliar treatments:  3–4. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

Autumn:

◆ 3–6 leaves unfolded (BBCH 13–16)

0.5–1 kg/ha

Spring:

◆ tillering (BBCH 22–29)

0.5–1 kg/ha

◆ stem elongation (BBCH 30–39)

0.5–1 kg/ha
◇ heading – until early milk maturity of grains (BBCH 51–73) except of flowering period, when foliar treatments are not recommended 0.5–1 kg/ha
WHEAT spring crop

Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development – tillering (BBCH 13–29)

0.5–1 kg/ha
◆ stem elongation (BBCH 30–39) 0.5–1 kg/ha
◇ heading – until early milk maturity of grains (BBCH 51–73) except of flowering period, when foliar treatments are not recommended 0.5–1 kg/ha
TRITICALE winter crop 

Number of foliar treatments: 3–4. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

Autumn:
◆ 3–6 leaves unfolded (BBCH 13–16)

0.5–1 kg/ha

Spring:
◆ continuation of tillering (BBCH 25–29)

0.5–1 kg/ha
◆ stem elongation (BBCH 30–39) 0.5–1 kg/ha
◇ heading – until early milk maturity of grains (BBCH 51–73) except of flowering period, when foliar treatments are not recommended 0.5–1 kg/ha
TRITICALE spring crop 
Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
 leaf development – tillering (BBCH 13–29) 0.5–1 kg/ha
◆ stem elongation (BBCH 30–39) 0.5–1 kg/ha
◇ heading – until early milk maturity of grains (BBCH 51–73) except of flowering period, when foliar treatments are not recommended 0.5–1 kg/ha

BARLEY (FEED and MALTING) winter crop

Number of foliar treatments: 3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

Autumn 
◆ leaf development – until beginning of tillering (BBCH 13–22)

0.5–1 kg/ha

Spring
◆ beginning of steam elongation (BBCH 30–32)

0.5–1 kg/ha
◆ flag leaf stage – until first awns visible (BBCH 39–49) 0.5–1 kg/ha
BARLEY (FEED and MALTING) spring crop
Number of foliar treatments: 2. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ leaf development – until beginning of steam elongation (BBCH 13–32) 0.5–1 kg/ha
◆ flag leaf stage – until first awns visible (BBCH 39–49) 0.5–1 kg/ha
RYE winter crop

Number of foliar treatments: up to 3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

Autumn:

◇/◆ leaf development – until beginning of tillering (BBCH 13–22)

The treatment should be considered as optimal in case of poor plant condition.

0.5–1 kg/ha

Spring:
◇ beginning of steam elongation (BBCH 30–32) 

0.5–1 kg/ha
◇ flag leaf stage – until beginning of heading (BBCH 39–51) 0.5–1 kg/ha
RYE spring crop
Number of foliar treatments: up to 2. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇/◆ leaf development – until beginning of steam elongation (BBCH 13–32)

The treatment should be considered as optimal in case of poor plant condition.

0.5–1 kg/ha

◇ flag leaf stage – until beginning of heading (BBCH 39–51)

0.5–1 kg/ha
OAT
Number of foliar treatments: 1–2. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇ leaf development – until beginning of tillering (BBCH 13–22) 0.5–1 kg/ha
◆ stem elongation – until flag leaf stage (BBCH 30–39) 0.5–1 kg/ha
OILSEED RAPE winter crops

Number of foliar treatments: 3–4. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

Autumn:
◆ 4–8 leaves unfolded (BBCH 14–18)

0.5–1 kg/ha

Spring:
◆ after spring start of plant growth, main stem development (BBCH 30–36)

0.5–1 kg/ha

◆ inflorescence emergence – until beginning of flowering (BBCH 50–61)

0.5–1 kg/ha
◇ full flowering (beginning of petals fall) – until beginning of pods development (BBCH 65–73) 0.5–1 kg/ha
CANOLA
Number of foliar treatments: 2-3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ leaf development – until beginning of main stem development (BBCH 14–31) 0.5–1 kg/ha

◆ inflorescence emergence – until beginning of flowering (BBCH 50–61)

0.5–1 kg/ha
◇ full flowering (beginning of petals fall) – until beginning of pods development (BBCH 65–73) 0.5–1 kg/ha
SUNFLOWER

Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 2–3 pairs of leaves (BBCH 14–16) 0.5–1 kg/ha
◆ stem elongation (BBCH 30–35) 0.5–1 kg/ha
◇ beginning of stem elongation (BBCH 30–33) 0.5–1 kg/ha
FLAX

Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development on the main stem (BBCH 12–16) 0.5–1 kg/ha
◆ stem growth (BBCH 30–39) 0.5–1 kg/ha
◇ inflorescence development (BBCH 51–55) 0.5–1 kg/ha
MAIZE

Number of foliar treatments: 2. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 2–6 leaves unfolded (BBCH 12–16) 0.5–1 kg/ha
◆ stem elongation – until beginning of tassel formation (BBCH 31–51), until the height of the plants allows spray treatment 0.5–1 kg/ha
SUGAR BEET

Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 4–6 leaves unfolded (BBCH 14–16) 0.5–1 kg/ha
◆ 8 leaves unfolded – until beginning of crop cover (BBCH 18–31) 0.5–1 kg/ha
◇ leaves cover 20–50% of the ground (BBCH 32–35) 0.5–1 kg/ha
POTATO

Number of foliar treatments: 3–4. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3–6 leaves unfolded on the main shoot (BBCH 13–16) 0.5–1 kg/ha
◆ beginning of crop cover until 80% of ground is covered (BBCH 31–38) 0.5–1 kg/ha
◆ tubers reach 20–30% of typical weight (BBCH 42–43) 0.5–1 kg/ha
◇ tubers reach 40% of typical weight (BBCH 44) 0.5–1 kg/ha
SOYBEAN

Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ trifoliolate leaf on the 3rd node unfolded – beginning of side shoots development (BBCH 13–23) 0.5–1 kg/ha
◆ beginning of inflorescence emergence – first flower buds enlarged (BBCH 51–55) 0.5–1 kg/ha

◇/◆ development of pods and seeds – up to 70% of pods have reached typical length (BBCH 70–77)

 

The treatment should be considered as optimal when plants are grown on soils with a pH above 6.8, with a high manganese (Mn) content and in case of iron symptoms deficiency.

0.5–1 kg/ha
LEGUMES
Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ development of leaves and shoots (BBCH 13–29) 0.5–1 kg/ha
◆ inflorescence emergence (BBCH 51–55)  0.5–1 kg/ha
◇ beginning of pod development (BBCH 71) 0.5–1 kg/ha
SORGHUM

Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ development of leaves until tillering (BBCH 13–29)  0.5–1 kg/ha
◆ beginning of stem elongation until beginning of tassel formation (BBCH 31–51)  0.5–1 kg/ha
◇ tip of tassel visible until flowering, beginning of pollination, visible stigmas (BBCH 53–63) 0.5–1 kg/ha
SUGAR CANE

Number of foliar treatments: 2–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development (BBCH 15–19)  0.5–1 kg/ha
◆ tillering (BBCH 23–29) 0.5–1 kg/ha
◆ stem elongation (BBCH 31–39) 0.5–1 kg/ha
RICE

Number of foliar treatments: 3-4. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 4–6 leaves unfolded (BBCH 14–16) 0.5–1 kg/ha
◆ tillering (BBCH 21–29) 0.5–1 kg/ha
◆ beginning of stem elongation (BBCH 30–32) 0.5–1 kg/ha
◇ beginning of panicle emergence (BBCH 51–53) 0.5–1 kg/ha
COTTON

Number of foliar treatments: 3-4. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 4th–6th true leaf unfolded (BBCH 14–16) 0.5–1 kg/ha
◆ 30–50% of plants meet between rows (BBCH 33–35) 0.5–1 kg/ha
◆ beginning of inflorescence emergence (BBCH 51–52) 0.5–1 kg/ha
◇ beginning of bolls development (BBCH 71–72) 0.5–1 kg/ha
APPLE TREE

Number of foliar treatments: 2–3. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water).
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ mouse-ear stage until green bud stage (BBCH 10/54–56) 0.5–1 kg/ha

◇/◆ flowers fading, majority of petals fallen until end of flowering, all petals have fallen (BBCH 67–69).

 

Treatment is considered optimal for soils with high pH (above 7.5).

0.5–1 kg/ha
◆  beginning of fruit falling until fruit diameter reaches up to 40 mm (BBCH 73–74) 0.5–1 kg/ha
PEAR TREE

Number of foliar treatments: foliar 2–6, soil 2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

Foliar application
◆ mouse-ear stage until green bud stage (BBCH 10/54–56)

Foliar application
0.5–1 kg/ha

 

Soil application
5–10 kg/ha

◇ flowers fading, majority of petals fallen until end of flowering, all petals have fallen (BBCH 67–69)
Large volume spraying on damp soil before or during rainfall (particularly recommended for soils with pH≥7 to improve the quality of fruits – green colour of the fruit skin)
◆ mouse-ear stage until green bud stage (BBCH 10/54–56)
◆ fruit reaches a size of up to 10 mm (BBCH 71)
CHERRY TREE

Number of foliar treatments: 1–2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water).
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ green bud stage (BBCH 55–56) 0.5–1 kg/ha
◇ flowers fading, majority of petals fallen until end of flowering (BBCH 67–69) 0.5–1 kg/ha
SWEET CHERRY TREE

Number of foliar treatments: 1–2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ green bud stage (BBCH 55–56) 0.5–1 kg/ha
◇ flowers fading, majority of petals fallen until end of flowering (BBCH 67–69) 0.5–1 kg/ha
PLUM TREE

Number of foliar treatments: 2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ green bud stage (BBCH 55–56) 0.5–1 kg/ha
◆ ovary growing (BBCH 71–72) 0.5–1 kg/ha
PEACH TREE

Number of foliar treatments: 2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ green bud stage (BBCH 55–56) 0.5–1 kg/ha
◆ ovary growing (BBCH 71–72) 0.5–1 kg/ha
APRICOT TREE

Number of foliar treatments: 2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ green bud stage (BBCH 55–56) 0.5–1 kg/ha
◆ ovary growing (BBCH 71–72) 0.5–1 kg/ha
CITRUS

Foliar use of iron (Fe) in citrus crops is not effective enough.

 

Therefore, we recommend MIKROCHELAT Fe-13 or MIKROCHELAT Fe-11 or MIKROCHELAT Fe-6 SL or MIKROCHELAT Fe-6 o-o to be used through the irrigation system (fertigation).

OLIVE TREE

Number of foliar treatments: 2–4. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆optimum periods; ◇ optional/complementary periods):

◆ leaf development (BBCH 17–19) 0.5–1 kg/ha
◆ shoot development (BBCH 31–37) 0.5–1 kg/ha
◆ bud and inflorescence development (BBCH 51–55) 0.5–1 kg/ha
◆ beginning of fruit development (BBCH 71–73) 0.5–1 kg/ha
COFFEE

Number of foliar treatments: 2-3. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ formation of branches (BBCH 21–29) 0.5–1 kg/ha
◆ branch elongation (BBCH 31–39) 0.5–1 kg/ha
◇ beginning of fruit development (BBCH 71–73) 0.5–1 kg/ha
MANGO

Number of foliar treatments: 2–4. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water).
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development (BBCH 13–19) 0.5–1 kg/ha
◆ shoot development and growth (BBCH 22–39)  0.5–1 kg/ha
◇  bud development (BBCH 51–55) 0.5–1 kg/ha
◇ fruit development (BBCH 71–73) 0.5–1 kg/ha
AVOCADO

Number of foliar treatments: 2–4. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development (BBCH 13–19) 0.5–1 kg/ha
◆ shoot development and growth (BBCH 22–39) 0.5–1 kg/ha
◇ bud development (BBCH 51–55) 0.5–1 kg/ha
◇ fruit development (BBCH 71–73) 0.5–1 kg/ha
PAPAYA

Number of foliar treatments: 2–4. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development (BBCH 14–19) 0.5–1 kg/ha
◆ beginning of stem growth (BBCH 31–33) 0.5–1 kg/ha
◇ bud and inflorescence development (BBCH 51–55) 0.5–1 kg/ha
◇ beginning of fruit development (BBCH 71–73) 0.5–1 kg/ha
GOOSEBERRY

Number of foliar treatments: 1–2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ beginning of vegetation, during leaf and fruit development 0.2–1 kg/ha
◇ after fruit harvesting 0.2–1 kg/ha
RASPBERRY fruiting on the annual shoots

Number of foliar treatments: 2–4. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development (BBCH 10–16) 0.2–1 kg/ha
◇ shoots reach 40–60% of final length (BBCH 33–39) 0.2–1 kg/ha
◇ inflorescence development until beginning of flowering (BBCH 51–64) 0.2–1 kg/ha
◆ fruit development until first fruit reach final size (BBCH 77–81) 0.2–1 kg/ha
RASPBERRY fruiting on the biannual shoots

Number of foliar treatments: 2–5. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water).
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ bud break (BBCH 07–09) 0.2–1 kg/ha
◇ leaf and shoot development (BBCH 13–39)  0.2–1 kg/ha
◇ inflorescence development until beginning of flowering (BBCH 51–64) 0.2–1 kg/ha
◆ fruit development until first fruit reach final size (BBCH 77–81) 0.2–1 kg/ha
CURRANT

Number of foliar treatments: 2–3. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water).
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ bud break (BBCH 07–09) 0.2–1 kg/ha
◇ leaf and shoot development (BBCH 15–35) 0.2–1 kg/ha
◆ 70–90% of fruits formed (BBCH 79)  0.2–1 kg/ha
BLUEBERRY – plantations without fertigation – fruiting plantations

Number of foliar treatments: 1–3. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ bud swelling 0.2–1 kg/ha
◇ beginning of leaf development and inflorescence emergence 0.2–1 kg/ha
◇ beginning of fruit development 0.2–1 kg/ha
GRAPEVINE

Number of foliar treatments: 3–4. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3rd–8th leaves unfolded (BBCH 13–18) 2 treatments every 7–14 days 0.5–1 kg/ha
◆ beginning of inflorescences emergence – until inflorescences swelling (BBCH 53–55) 0.5–1 kg/ha
◇ fruit development – until berries pea-sized (BBCH 71–75) 0.5–1 kg/ha

STRAWBERRY – plantations without fertigation – Summer-bearing varieties, not yet fruiting plantations – planted in autumn

Number of foliar treatments: 1–2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ Spring – leaf and crown development 0.2–1 kg/ha
◇ Summer – further vegetative development and bud initiation for next season 0.2–1 kg/ha
STRAWBERRY plantations without fertigation – Summer-bearing varieties, fully fruiting plantations

Number of foliar treatments: 2–4. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ after start of growing season: 3rd-–5th leaf unfolded (BBCH 13–15) 0.2–1 kg/ha
◆ 5th–7th leaf unfolded (BBCH 15–17) 0.2–1 kg/ha
◇ after fruit harvest, 1–2 treatments every 10–14 days 0.2–1 kg/ha
STRAWBERRY – fertigated plantations– Summer-bearing varieties, planted in summer with green potted plantlets – Cultivation in soil
Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ after plantlet adaptation to field condition – 5th–8th leaf unfolded

0.2–1 kg/ha
◇ SPRING – leaf development after start of growing season 0.2–1 kg/ha

STRAWBERRY – fertigated plantations– Summer-bearing varieties, planted in spring with frigo plantlets – Cultivation in soil

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇ after plantlet adaptation to the field conditions: 2nd–3rd leaf unfolded 0.2–1 kg/ha
◇ leaf development and inflorescence emergence 0.2–1 kg/ha
TOMATO

Number of foliar treatments: 2–4. Optimum amount of working solution: 400–600 l/ha.
ATTENTION! For foliar treatments on crops under cover do not exceed a concentration of 0.15%.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 5–7 leaves unfolded on the main shoot (BBCH 15–17) 0.2–1 kg/ha
◇ 1–3 inflorescences visible (BBCH 51–53) 0.2–1 kg/ha
◆ first fruit has reached typical size on 1–2 clusters (BBCH 71–72) 0.2–1 kg/ha
◇ first fruit has reached typical size on 3–5 clusters (BBCH 73–75) 0.2–1 kg/ha
PEPPER

Number of foliar treatments: 2–4. Optimum amount of working solution: 400–600 l/ha.
ATTENTION! For foliar treatments on crops under cover do not exceed a concentration of 0.15%.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3–7 leaves unfolded on the main shoot (BBCH 13–17) 0.2–1 kg/ha
◇ 8–9 or more leaves unfolded on the main shoot (BBCH 18–19) 0.2–1 kg/ha
◇ 1–3 inflorescences visible (BBCH 51–53) 0.2–1 kg/ha
CUCUMBER

Number of foliar treatments: 2–3. Optimum amount of working solution: 400–600 l/ha.
ATTENTION! For foliar treatments on crops under cover do not exceed a concentration of 0.15%.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3–5 true leaves unfolded on the main stem (BBCH 13–15) 0.2–1 kg/ha
◆ 1–2 flower initials with elongated ovary visible on the main stem (BBCH 51–52) 0.2–1 kg/ha
◇ 6–7 flower initials with elongated ovary visible on the main stem (BBCH 56–57) 0.2–1 kg/ha
PUMPKIN

Number of foliar treatments: 2–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3–5 true leaves unfolded on the main stem (BBCH 13–15) 0.2–1 kg/ha
◆ 1–2 flower initials with elongated ovary visible on the main stem (BBCH 51–52) 0.2–1 kg/ha
◇ 6–7 flower initials with elongated ovary visible on the main stem (BBCH 56–57) 0.2–1 kg/ha
MELON

Number of foliar treatments: 2–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3–5 true leaves unfolded (BBCH 13–15) 0.2–1 kg/ha
◆ formation of primary side shoots (BBCH 21–29) 0.2–1 kg/ha
◇ 1–2 flower initials with elongated ovary visible on the main stem (BBCH 51–52) 0.2–1 kg/ha
WATERMELON

Number of foliar treatments: 2–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3–5 true leaves unfolded (BBCH 13–15) 0.2–1 kg/ha
◆ formation of primary side shoots (BBCH 21–29) 0.2–1 kg/ha
◇ 1–2 flower initials with elongated ovary visible on the main stem (BBCH 51–52) 0.2–1 kg/ha
BULB VEGETABLES

Number of foliar treatments: up to 2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ 3–5 clearly visible leaves (BBCH 13–15) 0.2–1 kg/ha
◇ harvestable plant parts begin to develop (BBCH 41–43) 0.2–1 kg/ha
BROCCOLI

Number of foliar treatments: up to 2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 5–6 true leaves unfolded (BBCH 15–16) 0.2–1 kg/ha
◇ 7 leaves until 2 side shoots visible (BBCH 17–22)  0.2–1 kg/ha
CAULIFLOWER

Number of foliar treatments: 1–2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 5–6 true leaves unfolded (BBCH 15–16) 0.2–1 kg/ha
◇ 7–9 true leaves unfolded (BBCH 17–19) 0.2–1 kg/ha
WHITE HEAD CABBAGE

Number of foliar treatments: 1–2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development (BBCH 15–19) 0.2–1 kg/ha
◇ head reaches 20–30% of typical size (BBCH 42–43) 0.2–1 kg/ha
RED HEAD CABBAGE
Number of foliar treatments: 1–2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ leaf development (BBCH 15–19) 0.2–1 kg/ha
◇ head reaches 20–30% of typical size (BBCH 42–43) 0.2–1 kg/ha
SAVOY CABBAGE
Number of foliar treatments: 1–2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ leaf development (BBCH 15–19) 0.2–1 kg/ha
◇ head reaches 20–30% of typical size (BBCH 42–43) 0.2–1 kg/ha
CHINESE CABBAGE
Number of foliar treatments: 2–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇ leaf development (BBCH 15–19) 0.2–1 kg/ha
◆ head reaches 20–40% of typical size (BBCH 42–44) 0.2–1 kg/ha
◆ head reaches 50–70% of typical size (BBCH 45–47) 0.2–1 kg/ha
BRUSSELS SPROUTS

Number of foliar treatments: 1–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 5–8 true leaves unfolded (BBCH 15–18) 0.2–1 kg/ha
◇ main shoot reaches 40–70% of typical size (BBCH 34–37) 0.2–1 kg/ha
◇ head reaches 20–30% of typical size (BBCH 42–43) 0.2–1 kg/ha
KOHLRABI

Number of foliar treatments: 1. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆  5–7 true leaves unfolded (BBCH 15–17) 0.2–1 kg/ha
RADISH

Number of foliar treatments: 1. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 5–7 true leaves unfolded (BBCH 15–17) 0.2–1 kg/ha
KALE

Number of foliar treatments: 2–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 5–7 true leaves unfolded (BBCH 15–17) 0.2–1 kg/ha
◆ main shoot has reached 30–50% of final height (BBCH 33–35) 0.2–1 kg/ha
◇ 30–50% of the leaf mass reached (BBCH 43–45) 0.2–1 kg/ha
CARROT

Number of foliar treatments: up to 3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ 3–4 true leaves (BBCH 13–14) 0.2–1 kg/ha
◇ 5 true leaves / root begins to expand (BBCH 15/41) 0.2–1 kg/ha
◇ root reaches 20–40% of typical diameter (BBCH 42–44) 0.2–1 kg/ha
PARSLEY
Number of foliar treatments: 2-3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇ 5 true leaves / root begins to expand (BBCH 15/41) 0.2–1 kg/ha
◆ root reaches 20–40% of typical diameter (BBCH 42–44) 0.2–1 kg/ha
◆ root reaches 50–70% of typical diameter (BBCH 45–47) 0.2–1 kg/ha
PARSNIP
Number of foliar treatments: 2-3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇ 5 true leaves / root begins to expand (BBCH 15/41) 0.2–1 kg/ha
◆ root reaches 20–40% of typical diameter (BBCH 42–44) 0.2–1 kg/ha
◆ root reaches 50–70% of typical diameter (BBCH 45–47) 0.2–1 kg/ha
CELERY
Number of foliar treatments: up to 3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇ 5–6 true leaves (BBCH 15–16), ca. 7 days after planting seedlings 0.2–1 kg/ha
◇ 9 true leaves / root begins to expand (BBCH 19/41) 0.2–1 kg/ha
◇ root reaches 30–40% of typical diameter (BBCH 43–44) 0.2–1 kg/ha
BEETROOT
Number of foliar treatments: up to 2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇ 5 true leaves / beginning of crop cover (BBCH 15/31) 0.2–1 kg/ha
◇ storage root begins to develop, diameter above 2 cm (BBCH 41–43) 0.2–1 kg/ha
PEA

Number of foliar treatments: 1–2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3–5 true leaves (BBCH 13–15)

0.2–1 kg/ha

◇ stem elongation, 1–5 visible internodes on the stem (BBCH 31–35) 0.2–1 kg/ha
BEAN

Number of foliar treatments: 1–2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 3–5 true leaves (BBCH 13–15) 0.2–1 kg/ha
◇ formation of side shoots, 1–4 visible side shoots (BBCH 21–24) 0.2–1 kg/ha
NURSERY OF PERENNIAL ORNAMENTAL PLANTS

Number of treatments: 2–4.
ATTENTION! For foliar treatments on crops under cover do not exceed a concentration of 0.15%.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ 1–2 treatments every 7–21 days in spring

0.25–0.3% solution

◇ 1–2 treatments every 7–21 days in autumn
NURSERY OF ORCHARD PLANTS

Number of foliar treatments: 2–4.
ATTENTION! At low air humidity avoid using a solution of concentration greater than 0.15% (1.5 kg of fertilizer/1,000 L of water). 
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ every 7–14 days in spring and summer

0.25–0.3% solution

NURSERY OF ANNUAL ORNAMENTAL PLANTS
Number of foliar treatments: 1–3.
ATTENTION! For foliar treatments on crops under cover do not exceed a concentration of 0.15%.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ every 7–14 days, starting from the early vegetative stages

0.25–0.3% solution

ORNAMENTAL PLANTS
Number of treatments: 3–5.
ATTENTION! For foliar treatments on crops under cover do not exceed a concentration of 0.15%.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ every 7–14 days in spring and summer

watering
0.05–0.1% solution

 

spraying
0.25–0.3% solution

LAWNS
Number of treatments: 4-7.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ every 7–14 days in spring and summer

spraying
0.25–0.3% solution

GOLF COURSE
Number of treatments: 4-7.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ every 7–14 days in spring and summer

spraying
0.25–0.3% solution