MIKROVIT MOLYBDENUM

MIKROVIT MOLYBDENUM
Liquid foliar molybdenum fertiliser containing 33 g Mo in 1 litre
Available packaging
  •     1l; 5l; 10l; 20l; 1000l
Directions for use
Foliar sprays

Liquid foliar molybdenum fertiliser containing 33 g Mo in 1 litre

  1. FOLIAR SPRAYS
    MIKROVIT MOLYBDENUM is intended for foliar application in the form of an aqueous solution. MIKROVIT MOLYBDENUM 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

 

  1. FERTIGATION
    Using MIKROVIT MOLYBDENUM for the preparation of nutrient solution for fertigation - the content of components shall always be adapted to the individual fertilisation recommendations.
    Recommended concentration: 0.03–0.06 mg Mo in 1 litre of ready-to-use nutrient solution. (1–2 ml of MIKROVIT MOLYBDENUM in 1,000 l of ready-to-use nutrient solution or 100–200 ml of fertiliser in 1,000 litres of water when preparing solution of 100-fold concentration).
    For soil-grown plants, use 2–3 times during the growing season or every 2–3 cycles of fertigation as required.

 

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: 1–3. 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 l/ha

Spring:

◇/◆ tillering (BBCH 22–29)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.
 

0.5–1 l/ha

◇/◆ stem elongation (BBCH 30–39)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.

In spring treatments do not exceed a total dose of 1 l/ha.
0.5–1 l/ha
WHEAT 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 – tillering (BBCH 13–29)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.

0.5–1 l/ha

◇/◆ stem elongation (BBCH 30–39)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.

In spring treatments do not exceed a total dose of 1 l/ha.

0.5–1 l/ha
TRITICALE winter crop

Number of foliar treatments: 1–3. 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 l/ha

Spring:

◇/◆ continuation of tillering (BBCH 25–29)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.

0.5–1 l/ha

◇/◆ stem elongation (BBCH 30–39)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.

In spring treatments do not exceed a total dose of 1 l/ha.

0.5–1 l/ha
TRITICALE 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 – tillering (BBCH 13–29)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.

0.5–1 l/ha

◇/◆ stem elongation (BBCH 30–39)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.

In spring treatments do not exceed a total dose of 1 l/ha.
0.5–1 l/ha
BARLEY (FEED) winter crop

Number of foliar treatments: 1–3. 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 l/ha

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

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 

0.5–1 l/ha

◇/◆ flag leaf stage – until first awns visible (BBCH 39–49)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 
In spring treatments do not exceed a total dose of 1 l/ha..

0.5–1 l/ha
BARLEY (FEED) 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)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 

0.5–1 l/ha

◇/◆ flag leaf stage – until first awns visible (BBCH 39–49)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 
In spring treatments do not exceed a total dose of 1 l/ha..
0.5–1 l/ha
BARLEY (MALTING) winter crop
Number of foliar treatments: 1-2. 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 l/ha

Spring:

◇/◆ beginning of steam elongation (BBCH 30–32)

0.5–1 l/ha
BARLEY (MALTING) spring crop
Number of foliar treatments: up to 1. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇/◆ eginning of steam elongation (BBCH 30–32)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 

0.5–1 l/ha
RYE winter crop

Number of foliar treatments: 1–3. 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 l/ha

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

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 
In spring treatments do not exceed a total dose of 1 l/ha.

0.5–1 l/ha
◇ flag leaf stage – until beginning of heading (BBCH 39–51) 0.5–1 l/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)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 
In spring treatments do not exceed a total dose of 1 l/ha.

0.5–1 l/ha
◇ flag leaf stage – until beginning of heading (BBCH 39–51) 0.5–1 l/ha
OAT
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 tillering (BBCH 13–22)

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 

0.5–1 l/ha
◇ stem elongation – until flag leaf stage (BBCH 30–39) 0.5–1 l/ha
OILSEED RAPE winter crops

Number of foliar treatments: 1–3. 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 l/ha

Spring:

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

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 

0.5–1 l/ha

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

In spring treatments do not exceed a total dose of 1 l/ha.

0.5–1 l/ha
CANOLA
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 main stem development (BBCH 14–31) 0.5–1 l/ha

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

In spring treatments do not exceed a total dose of 1 l/ha.

0.5–1 l/ha
SUNFLOWER

Number of foliar treatments: 1–2. 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 l/ha

◇/◆ beginning of stem elongation (BBCH 30–35)

 

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation. 

0.5–1 l/ha
FLAX

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 on the main stem (BBCH 14–16) 0.5–1 l/ha

◇/◆ stem growth (BBCH 33–35)

 

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and in the case of high nitrogen fertilisation.

0.5–1 l/ha
MAIZE

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):

◇ 2–6 leaves unfolded (BBCH 12–16) 0.5–1 l/ha

◇/◆  7–8 leaves unfolded (BBCH 17–18)

The treatment should be considered as optimal when plants are grown on acidic soils (pH below 6.0) and also in the case of high nitrogen fertilisation.

In treatments do not exceed a total dose of 1 l/ha.

0.5–1 l/ha
SUGAR BEET
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):

◇ 8 leaves unfolded – until beginning of crop cover (BBCH 18–31)

0,5–1 l/ha

◇ leaves cover 20–50% of ground (BBCH 32–35)

0,5–1 l/ha

POTATO

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):

◇/◆ 3–6 leaves unfolded on the main shoot (BBCH 13–16)

 

Consider treatment optimum for cultivation on acidic soils (pH below 6.0), and on light soils. 

0.5–1 l/ha
◇ formation of side shoots until crop cover (BBCH 21–39) 0.5–1 l/ha
SOYBEAN

Number of foliar treatments: 1-3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ beginning of formation of side shoots (BBCH 21–23) 0.5–1 l/ha
◆ inflorescence emergence (BBCH 51–59) 0.5–1 l/ha

◇/◆  beginning of pods and seeds development (BBCH 70-72)

 

The treatment should be considered as optimal when plants are grown on soils with a pH below 6.5 and in case of molybdenium symptoms deficiency.

0.5–1 l/ha
SORGHUM

Number of foliar treatments: 1–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 6–8 leaves (BBCH 16–18)  0.5–1 l/ha

◇/◆ beginning of stem elongation (BBCH 32–34)  

 

Consider treatment optimum for cultivation on acidic soils (pH below 5.5), and in the case of high nitrogen fertilisation. 

0.5–1 l/ha
◇ stem elongation until beginning of tassel formation (BBCH 37–51)  0.5–1 l/ha
SUGAR CANE

Number of foliar treatments: 1–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ leaf development (BBCH 13–19) 0.5–1 l/ha

◇/◆ beginning of stem elongation (BBCH 32–34)

 

Consider treatment optimum for cultivation on acidic soils (pH below 5.5), and in the case of high nitrogen fertilisation.

0.5–1 l/ha
◇ stem elongation until beginning of tassel development (BBCH 37–51) 0.5–1 l/ha
RICE

Number of foliar treatments: 1–3. Optimum amount of working solution: 200–300 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ beginning of tillering (BBCH 21–23) 0.5–1 l/ha

◇/◆ beginning of stem elongation (BBCH 30–32)

 

The treatment should be considered as optimal when plants are grown on acidic soils and also in the case of a high content of nitrogen (N) in the soil.

0.5–1 l/ha
◇ end of booting (BBCH 47–49) 0.5–1 l/ha
COTTON

Number of foliar treatments: 1–3. 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 l/ha

◇/◆ formation of side shoots – until 50% of plants meet between rows (BBCH 21–35)

The treatment should be treated as optimal when plants are grown on acidic soils and also in the case of a high content of nitrogen (N) in the soil.

0.5–1 l/ha
◇ inflorescence emergence – until beginning of flowering (BBCH 51–61) 0.5–1 l/ha
APPLE TREE

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ green bud stage (BBCH 56)   0.5–1 l/ha
◇ fruit reaches 20–60% of typical size (BBCH 72–76) 0.5–1 l/ha
PEAR TREE

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ green bud stage (BBCH 56)   0.5–1 l/ha
◇ fruit reaches 20–60% of typical size (BBCH 72–76) 0.5–1 l/ha
CHERRY TREE

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ flowers fading, majority of petals fallen until end of flowering (BBCH 67–69) 0.5–1 l/ha
◇ after fruit harvesting 0.5–1 l/ha
SWEET CHERRY TREE

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ flowers fading, majority of petals fallen until end of flowering (BBCH 67–69) 0.5–1 l/ha
◇ after fruit harvesting 0.5–1 l/ha
PLUM TREE

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ flowers fading, majority of petals fallen until end of flowering (BBCH 67–69) 0.5–1 l/ha
◇ ovary growing until fruit reaches 60% of typical size  (BBCH 72–76) 0.5–1 l/ha
PEACH TREE

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ flowers fading, majority of petals fallen until end of flowering (BBCH 67–69) 0.5–1 l/ha
◇ ovary growing until fruit reaches 60% of typical size  (BBCH 72–76) 0.5–1 l/ha
APRICOT TREE

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ flowers fading, majority of petals fallen until end of flowering (BBCH 67–69) 0.5–1 l/ha
◇ ovary growing until fruit reaches 60% of typical size  (BBCH 72–76) 0.5–1 l/ha
CITRUS

Number of foliar treatments: 1–2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ more than 5 leaves visible, not yet at full size (BBCH 15) 0.5–1 l/ha
◇ beginning of fruit development – until fruit about 40% of final size (BBCH 71–74) 0.5–1 l/ha
OLIVE TREE

Number of foliar treatments: 1–2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ beginning of shoot development (BBCH 33–35) 0.5–1 l/ha
◇ beginning of fruit development (BBCH 72–73) 0.5–1 l/ha
COFFEE

Number of foliar treatments: 1–3. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ formation of branches (BBCH 25–29) 0.5–1 l/ha
◆ elongation of branches (BBCH 33–35) 0.5–1 l/ha
◇ fruit development (BBCH 73–75) 0.5–1 l/ha
MANGO

Number of foliar treatments: up to 3. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ leaf development (BBCH 13–19) 0.5–1 l/ha
◇ shoot development, shoots reach 10–70% of final length (BBCH 31–37)  0.5–1 l/ha
◇ fruit development, fruits reach 20–70% of final size  (BBCH 72–77) 0.5–1 l/ha
AVOCADO

Number of foliar treatments: up to 3. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ leaf development (BBCH 13–19) 0.5–1 l/ha
◇ shoot development, shoots reach 10–70% of final length (BBCH 31–37)  0.5–1 l/ha
◇ fruit development, fruits reach 20–70% of final size  (BBCH 72–77) 0.5–1 l/ha
PAPAYA

Number of foliar treatments: 1–3. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ leaf development (BBCH 14–19) 0.5–1 l/ha
◆ stem growth (BBCH 33–37) 0.5–1 l/ha
◇ fruit development, fruits reach 20–50% of final size  (BBCH 72–75) 0.5–1 l/ha
GOOSEBERRY

Number of foliar treatments: 1–2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ end of flowering 0.5–1 l/ha
◇ beginning of fruit development  
BLUEBERRY

Number of foliar treatments: 1–5. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ bud and leaf development 0.5–1 l/ha
◇ fruit development 0.5–1 l/ha

◇ fruit ripening

0.5–1 l/ha
◇ after fruit harvest, 1–2 treatments every 10–21 days 0.5–1 l/ha
GRAPEVINE

Number of foliar treatments: 1–3. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◆ 6th–8th leaves unfolded (BBCH 16–18)  0.5–1 l/ha
◇ inflorescence emergence (BBCH 53–57) 0.5–1 l/ha
◇ fruit development – until berries pea-sized (BBCH 71–75) 0.5–1 l/ha
STRAWBERRY

Number of foliar treatments: up to 2. Optimum amount of working solution: 500–1,000 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ 3rd–7th leaf unfolded (BBCH 13–17) 0.5 l/ha
◇ after fruit harvest 0.5 l/ha
CUCURBIT VEGETABLES

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

◇ 6–8 true leaves on the main stem unfolded (BBCH 16–18) 0.5 l/ha
BULB VEGETABLES

Number of foliar treatments: 1–3. 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) 0.5–1 l/ha
◇ harvestable plant parts begin to develop (BBCH 41–43) 0.5–1 l/ha
◇ development of harvestable plant parts, 50 % of expected bulb diameter (BBCH 45) 0.5–1 l/ha
BROCCOLI

Number of foliar treatments: 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) 0.5–1 l/ha
◆ 1–7 side shoots visible (BBCH 21–27) 0.5–1 l/ha
CAULIFLOWER

Number of foliar treatments: 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) 0.5–1 l/ha
◆ head begins to grow (> 1 cm) until head reaches 20% of typical size (BBCH 41–42) 0.5–1 l/ha
WHITE HEAD CABBAGE

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

◆ 7–9 and more true leaves unfolded (BBCH 17–19) 0.5–1 l/ha

◇/◆ head begins to grow (> 1 cm) until head reaches 20% of typical size (BBCH 41–42)

 

Consider treatments optimum for cultivation on light soils, as well as for varieties with long vegetation period.

0.5–1 l/ha
◇ head reaches 30–70% of typical size (BBCH 43–47) 0.5–1 l/ha
RED HEAD CABBAGE
Number of foliar treatments: 1–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ 7–9 or more true leaves unfolded (BBCH 17–19) 0.5–1 l/ha

◇/◆ head begins to grow (> 1 cm) until head reaches 20% of typical size (BBCH 41–42)

 

Consider treatments optimum for cultivation on light soils, as well as for varieties with long vegetation period.

0.5–1 l/ha
◇ head reaches 30–70% of typical size (BBCH 43–47) 0.5–1 l/ha
SAVOY CABAGE
Number of foliar treatments: 1–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ 7–9 or more true leaves unfolded (BBCH 17–19) 0.5–1 l/ha

◇/◆ head begins to grow (> 1 cm) until head reaches 20% of typical size (BBCH 41–42)

 

Consider treatments optimum for cultivation on light soils, as well as for varieties with long vegetation period.

0.5–1 l/ha
◇ head reaches 30–70% of typical size (BBCH 43–47) 0.5–1 l/ha
CHINESE CABBAGE
Number of foliar treatments: 1–3. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◇ 5–9 and more true leaves unfolded (BBCH 15–19) 0.5–1 l/ha

◇/◆ head begins to grow (> 1 cm) until head reaches 20% of typical size (BBCH 41–42)

 

Consider treatments optimum for cultivation on light soils, as well as for varieties with long vegetation period.

0.5–1 l/ha
◇ head reaches 30–70% of typical size (BBCH 43–47) 0.5–1 l/ha
BRUSSELS SPROUTS

Number of foliar treatments: 2. 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) 0.5–1 l/ha
◆ main shoot reaches 30–70% of typical size (BBCH 33–37)  0.5–1 l/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 leaves unfolded until head reaches 30% of typical size (BBCH 15–43) 0.5–1 l/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 leaves unfolded until head reaches 30% of typical size (BBCH 15–43) 0.5–1 l/ha
KALE

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

◆ 5–7 true leaves unfolded (BBCH 15–17) 0.5–1 l/ha
◇ main shoot has reached 30–50% of final height (BBCH 33–35) 0.5–1 l/ha
CARROT

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

◆ 4–5 true leaves / root begins to expand (BBCH 14–15/41) 0.5–1 l/ha
◆ root reaches 50–80% of typical diameter (BBCH 45–48) 0.5–1 l/ha
PARSLEY
Number of foliar treatments: 2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ 4–5 true leaves / root begins to expand (BBCH 14–15/41) 0.5–1 l/ha
◆  root reaches 50–80% of typical diameter (BBCH 45–48) 0.5–1 l/ha
PARSNIP
Number of foliar treatments: 2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ 4–5 true leaves / root begins to expand (BBCH 14–15/41) 0.5–1 l/ha
◆ root reaches 50–80% of typical diameter (BBCH 45–48) 0.5–1 l/ha
CELERY
Number of foliar treatments: 2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ 7–8 true leaves (BBCH 17–18) 0.5–1 l/ha
◆ root reaches 50–80% of typical diameter (BBCH 45–48) 0.5–1 l/ha
BEETROOT
Number of foliar treatments: 2. Optimum amount of working solution: 400–600 l/ha.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):
◆ storage root begins to develop, diameter above 2 cm (BBCH 41–43) 0.5–1 l/ha
◆ root reaches 40–70% of typical diameter (BBCH 44–47) 0.5–1 l/ha
PEA

Number of foliar treatments: 1. 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)

0.5–1 l/ha

BEAN

Number of foliar treatments: 1. 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) 0.5–1 l/ha
SEEDLINGS OF CRUCIFEROUS VEGETABLES

Number of treatments: 1–2.
Proposed periods of use (◆ optimum periods; ◇ optional/complementary periods):

◇ 1–2 leaves unfolded (BBCH 11–12)

watering
0.05–0.1% solution

 

spraying
0.25–0.3% solution

◆ 3–4 leaves unfolded (BBCH 13–14)