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AMINO ULTRA®Zn-24

AMINO ULTRA<sup>®</sup>Zn-24
Zinc complexed by fully biodegradable amino acid (240 g Zn in 1 kg) in water-soluble ultra-granulated form
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
Available packaging
  •     1kg; 5kg
Directions for use
Foliar sprays

      Product Description

    AMINO ULTRA Zn-24 contains 240 g Zn per kg (24% Zn). Zinc from AMINO ULTRA Zn-24 is quickly absorbed by plants thanks to the the glycine – amino acid naturally used by plants in the process of micronutrient transport.

    AMINO ULTRA Zn-24 is a foliar fertilizer especially recommended for crops with high zinc demands as well as in soil conditions limiting zinc availability for plants.

    TThe characteristic features of AMINO ULTRA series include:

    • Ultra-fast nutrition effect
    • High concentration of nutrients – low doses
    • Fully biodegradable ligand.

     

    Nutrients g/kg % by mass
    Zinc (Zn) chelated by amino acid 240 24.0
    Nirogen (N) 40 4
    amino acid 250 25

     

    AMINO ULTRA Zn-24 is recommended for use in crops with high requirements for zinc. It is particularly recommended for weak plants that require regeneration.

    AMINO ULTRA Zn-24 is necessary in the case of adverse soil conditions which restrict the availability of zinc for plants (high pH, high phosphorus content or lack of oxygen in the root zone), and adverse weather conditions - when plants need spray treatments and the use of a rapidly assimilated formulation.

     

    Leaflet for download: AMINO ULTRA - ULTRA-FAST NUTRITION EFFECT 

      Directions for Use

    FOLIAR SPRAYS

    AMINO ULTRA Zn-24 is intended for foliar application in the form of an aqueous solution. AMINO ULTRA Zn-24 can be used together with other agrochemicals after conducting a miscibility test.

    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

     

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

    WHEAT winter wheat
    Application times (◆ optimal, ◇ optional):

    ◇/◆ Autumn: 3–6 leaves unfolded 
    The application time should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence.

    		 0.15–0.55 kg/ha

    ◇/◆ Spring: tillering
    The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha

    ◇/◆ stem elongation
    The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha

    ◇/◆ flag leaf stage / beginning of heading
    The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization.  

    		 0.15–0.55 kg/ha
    WHEAT spring wheat
    Application times (◆ optimal, ◇ optional):

    ◇/◆ leaf development – tillering
    The application time should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence.

    		 0.15–0.55 kg/ha

    ◇/◆ stem elongation
    The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha

    ◇/◆ flag leaf stage / beginning of heading
    The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization.  

    		 0.15–0.55 kg/ha
    TRITICALE – winter triticale
    Application times (◆ optimal, ◇ optional):

    ◇/◆ Autumn: 3–6 leaves unfolded 

    The application time should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence.

    		 0.15–0.55 kg/ha

    ◇/◆ Spring: continuation of tillering

    The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha

    ◇/◆ stem elongation

    The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha

    ◇ flag leaf stage / beginning of heading

    		 0.15–0.55 kg/ha
    TRITICALE – spring triticale
    Application times (◆ optimal, ◇ optional):
    ◇/◆ leaf development – tillering

    The application time should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence.

    		 0.15–0.55 kg/ha

    ◇/◆ stem elongation

    The application time should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha

    ◇ flag leaf stage / beginning of heading

    		 0.15–0.55 kg/ha
    BARLEY winter feed barley
    Application times (◆ optimal, ◇ optional):

    ◆/◇ Autumn: leaf development – until beginning of tillering

    The treatment should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence.

    		 0.15–0.55 kg/ha

    ◆/◇ Spring: beginning of stem elongation

    The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha
    ◆/◇ flag leaf stage – until first awns visible

    The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha
    BARLEY spring feed barley
    Application times (◆ optimal, ◇ optional):
    ◆/◇ leaf development – until beginning of stem elongation

    The treatment should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence.

    		 0.15–0.55 kg/ha
    ◆/◇ flag leaf stage – until first awns visible

    The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high, as well as with high nitrogen fertilization and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha
    BARLEY - winter malt barley
    Application times (◆ optimal, ◇ optional):    		  
    ◇/◆ Autumn: leaf development – until beginning of tillering

    The treatment should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence.

    		 0.15–0.55 kg/ha
    ◇/◆ Spring: beginning of stem elongation

    The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha
    ◇/◆ flag leaf stage – until first awns visible

    The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.    		 0.15–0.55 kg/ha
    BARLEY spring malt barley
    Application times (◆ optimal, ◇ optional):    		  
    ◇/◆ leaf development – until beginning of stem elongation

    The treatment should be considered as optimal in case of soils with a pH above 6.5 and when soil phosphorus content is high, as well as when sowing was late and in case of delayed plant emergence.

    		 0.15–0.55 kg/ha
    ◇/◆ flag leaf stage – until first awns visible

    The treatment should be considered as optimal in case of soils with a pH above 6.5, when phosphorus content in soil is high and in case of low air and soil temperature.

    Warning! – please note that high zinc fertilization may reduce resistance of grain crops to powdery mildew.

    		 0.15–0.55 kg/ha

    RYE – winter rye
    Application times (◆ optimal, ◇ optional):

    ◇ Autumn: leaf development – until beginning of tillering

    		 0.15–0.55 kg/ha

    ◇ Spring: beginning of steam elongation 

    		 0.15–0.55 kg/ha
    ◇ flag leaf stage – until beginning of heading  0.15–0.55 kg/ha

    RYE – spring rye
    Application times (◆ optimal, ◇ optional):

    ◇ leaf development – until beginning of steam elongation

    		 0.15–0.55 kg/ha
    ◇ flag leaf stage – until beginning of heading  0.15–0.55 kg/ha
    OAT
    Application times (◆ optimal, ◇ optional):

    ◇ leaf development – tillering

    		 0.15–0.55 kg/ha
    ◇ stem elongation – until flag leaf stage 0.15–0.55 kg/ha
    OILSEED RAPE - winter oilseed rape
    Application times (◆ optimal, ◇ optional):

    Autumn:
    ◇/◆ 4–8 leaves unfolded

    The treatment should be considered as optimal in case of crops  grown on soils with a pH above 7 and / or high phosphorus content in soil.

    		 0.15–0.55 kg/ha

    Spring:
    ◇/◆ beginning of main stem elongation

    The treatment should be considered as optimal in case of crops  grown on soils with a pH above 7 and / or high phosphorus content in soil, high nitrogen fertilization, as well as during the cold weather or spring frost.

    		 0.15–0.55 kg/ha

    ◇/◆ bud formation – until beginning of flowering

    The treatment should be considered as optimal in case of crops  grown on soils with a pH above 7 and / or high phosphorus content in soil, high nitrogen fertilization, as well as during the cold weather or spring frost.

    		 0.15–0.55 kg/ha
    OILSEED RAPE - spring oilseed rape
    Application times (◆ optimal, ◇ optional):

    ◇/◆ leaf development – until beginning of main stem elongation

    The treatment should be considered as optimal in case of crops  grown on soils with a pH above 7 and / or high phosphorus content in soil, high nitrogen fertilization, as well as during the cold weather or spring frost.

    		 0.15–0.55 kg/ha
    ◇/◆ bud formation – until beginning of flowering

    The treatment should be considered as optimal in case of crops  grown on soils with a pH above 7 and / or high phosphorus content in soil, high nitrogen fertilization, as well as during the cold weather or spring frost.

    		 0.15–0.55 kg/ha
    SUNFLOWER
    Application times (◆ optimal, ◇ optional):
    ◆ 4–6 leaves unfolded (BBCH 14–16) 0.15–0.55 kg/ha
    ◆ beginning of stem elongation (BBCH 30–33) 0.15–0.55 kg/ha
    ◇ beginning of inflorescence development (BBCH 51–53) 0.15–0.55 kg/ha
    FLAX
    Application times (◆ optimal, ◇ optional):
    ◆ leaf development on the main stem (BBCH 13–19) 0.15–0.55 kg/ha
    ◆ stem growth (BBCH 30–39) 0.15–0.55 kg/ha
    ◆ beginning of inflorescence development (BBCH 51–53) 0.15–0.55 kg/ha
    HOP
    Application times (◆ optimal, ◇ optional):
    ◆ 1–3 pairs of side shoots visible (BBCH 21–23) 0.15–0.55 kg/ha
    ◆ 4–9 and more pairs of side shoots visible (BBCH 24–29) 0.15–0.55 kg/ha
    ◆ inflorescence buds visible (BBCH 51–55) 0.15–0.55 kg/ha
    MAIZE
    Application times (◆ optimal, ◇ optional):
    ◆ 2–6 leaves unfolded (4 leaves is the optimum stage for treatment) 0.2–0.6 kg/ha
    ◆ 7–8 leaves unfolded 0.2–0.6 kg/ha
    ◆ stem elongation – until beginning of tassel formation 0.2–0.6 kg/ha
    SUGAR BEET
    Application times (◆ optimal, ◇ optional):
    ◆ beginning of leaf development 0.2–0.6 kg/ha
    ◆ beginning of crop cover 0.2–0.6 kg/ha
    ◇ beginning of storage root development 0.2–0.6 kg/ha
    POTATO harvested when fully ripe     
    Application times (◆ optimal, ◇ optional):
    ◆ beginning of growth of shoots and leaves (plant height about 10 cm) 0.15–0.55 kg/ha
    ◆ beginning of tuber formation 0.15–0.55 kg/ha
    ◆ beginning of tuber growth 0.15–0.55 kg/ha
    ◇ tubers reach ca. 50% of the final mass 0.15–0.55 kg/ha
    SOYBEAN
    Application times (◆ optimal, ◇ optional):
    ◆ first trifoliate leaf development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha

    ◇ beginning of pod and seed development 

    		 0.15–0.55 kg/ha
    PEA – COMMON PEA (GARDEN PEA)
    Application times (◆ optimal, ◇ optional):
    ◆ first true leaf development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha
    ◇ beginning of pod and seed development  0.15–0.55 kg/ha
    BEAN – COMMON BEAN, RUNNER BEAN
    Application times (◆ optimal, ◇ optional):
    ◆ first true leaf development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha
    ◇ beginning of pod and seed development  0.15–0.55 kg/ha
    BEAN – BROAD BEAN (FAVA BEAN)
    Application times (◆ optimal, ◇ optional):
    ◆ first true leaf development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha
    ◇ beginning of pod and seed development  0.15–0.55 kg/ha
    BEAN – FIELD BEAN (HORSE BEAN)
    Application times (◆ optimal, ◇ optional):
    ◆ first true leaf development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha
    ◇ beginning of pod and seed development  0.15–0.55 kg/ha
    LENTIL
    Application times (◆ optimal, ◇ optional):
    ◆ first true leaf development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha
    ◇ beginning of pod and seed development  0.15–0.55 kg/ha
    CHICKPEA (GARBANZO)
    Application times (◆ optimal, ◇ optional):
    ◆ first true leaf development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha
    ◇ beginning of pod and seed development  0.15–0.55 kg/ha
    PEANUT (GROUNDNUT)
    Application times (◆ optimal, ◇ optional):
    ◆ first true leaf development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha
    ◇ beginning of pod and seed development  0.15–0.55 kg/ha
    LUPINE
    Application times (◆ optimal, ◇ optional):
    ◆ rosette development 0.15–0.55 kg/ha
    ◆ beginning of flower bud development 0.15–0.55 kg/ha
    ◇ beginning of pod and seed development  0.15–0.55 kg/ha
    SORGHUM
    Application times (◆ optimal, ◇ optional):
    ◆ 4–6 leaves (BBCH 14–16)  0.15–0.55 kg/ha
    ◆ stem elongation until beginning of tassel formation (BBCH 32–51) 0.15–0.55 kg/ha
    ◇ tip of tassel visible until flowering, beginning of pollination, visible stigmas (BBCH 53–63) 0.15–0.55 kg/ha
    SUGAR CANE
    Application times (◆ optimal, ◇ optional):
    ◆ 3–9 leaves (BBCH 13–19)  0.15–0.55 kg/ha
    ◆ tillering (BBCH 21–29) 0.15–0.55 kg/ha
    ◆ stem elongation (BBCH 31–39) 0.15–0.55 kg/ha
    RICE
    Application times (◆ optimal, ◇ optional):
    ◆ leaf development – tillering 0.15–0.55 kg/ha
    ◆ beginning of stem formation 0.15–0.55 kg/ha
    ◇ beginning of panicle emergence 0.15–0.55 kg/ha
    COTTON
    Application times (◆ optimal, ◇ optional):
    ◆ beginning of leaf development 0.2–0.6 kg/ha
    ◆ beginning of side shoots formation 0.2–0.6 kg/ha
    ◆ beginning of flower bud development 0.2–0.6 kg/ha
    ◇ beginning of bolls development 0.2–0.6 kg/ha
    APPLE  orchards without fertigation – young, non-fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ Spring: after plant adoption in the field – leaf bud break 0.3–0.55 kg/ha
    ◆ Spring: leaf development 0.3–0.55 kg/ha
    ◇/◆ Spring/summer: growth of main stem and side shoots

    The treatment should be considered as optimal when grown in soils with a pH above 7 (water soil extraction).

    		 0.3–0.55 kg/ha
    ◇ Autumn: before beginning of leaf colour turning 0.3–0.55 kg/ha
    APPLE  orchards without fertigation – fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ bud break  0.3–0.55 kg/ha
    ◆ “mouse ear” stage 0.3–0.55 kg/ha
    ◇ pink bud stage  0.3–0.55 kg/ha
    ◆ end of flowering: majority of petals fallen 0.3–0.55 kg/ha
    ◆ after harvest 0.3–0.55 kg/ha
    ◆ before beginning of leaf colour turning 0.3–0.55 kg/ha
    APPLE  fertigated orchards – fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ bud break 0.3–0.55 kg/ha
    ◆ “mouse ear” stage 0.3–0.55 kg/ha
    ◆ end of flowering: majority of petals fallen 0.3–0.55 kg/ha
    ◆ after harvest 0.3–0.55 kg/ha
    ◆ before beginning of leaf colour turning 0.3–0.55 kg/ha
    APPLE  – nuresery plantations – budded nursery tree plantation
    Application times (◆ optimal, ◇ optional):
    ◇ 1st year – summer (about 3–4 weeks after budding): end of shoot and leaf growth 0.3–0.55 kg/ha
    ◇ 1st year – autumn: before beginning of leaf colour turning 0.3–0.55 kg/ha
    ◆ 2nd year – spring (after cutting the rootstock above the budding place): beginning of shoot and leaf development 0.3–0.55 kg/ha
    ◇/◆ 2nd year – spring/summer: growth of main stem and side shoots

    The treatment should be considered as optimal when grown in soils with a pH above 7 (water soil extraction).

    		 0.3–0.55 kg/ha
    ◇ 2nd year – autumn: before beginning of leaf colour turning 0.3–0.55 kg/ha
    APPLE  – nuresery plantations – grafted nursery tree plantation 
    Application times (◆ optimal, ◇ optional):
    ◇ 1st year – summer: growth of main stem and leaf development 0.3–0.55 kg/ha
    ◇ 1st year – autumn: before beginning of leaf colour turning 0.3–0.55 kg/ha
    ◆ 2nd year – spring (10–14 days after cutting the main stem at a height of approx. 60–65 cm.): beginning of shoot and leaf development 0.3–0.55 kg/ha
    ◇/◆ 2nd year – spring/summer: growth of main stem and side shoot

    The treatment should be considered as optimal when grown in soils with a pH above 7 (water soil extraction).

    		 0.3–0.55 kg/ha
    ◇ 2nd year – autumn: before beginning of leaf colour turning 0.3–0.55 kg/ha
    PEAR – orchards without fertigation– fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ bud break  0.3–0.55 kg/ha
    ◆ “mouse ear” stage 0.3–0.55 kg/ha
    ◇ white bud stage 0.3–0.55 kg/ha
    ◆ end of flowering: majority of petals fallen 0.3–0.55 kg/ha
    ◆ post-harvest 0.3–0.55 kg/ha
    ◆ before beginning of leaf colour turning 0.3–0.55 kg/ha

    CHERRY (SOUR CHERRY TREE) – orchards without fertigation – fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ bud swelling / burst 0.3–0.55 kg/ha
    ◆ inflorescence emergence 0.3–0.55 kg/ha
    ◆ fruitlet development 0.3–0.55 kg/ha
    ◇ beginning of maturation 0.3–0.55 kg/ha
    ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha
    CHERRY (SWEET CHERRY TREE) – orchards without fertigation – fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ bud swelling / burst 0.3–0.55 kg/ha
    ◆ inflorescence emergence 0.3–0.55 kg/ha
    ◆ fruitlet development 0.3–0.55 kg/ha
    ◇ beginning of maturation 0.3–0.55 kg/ha
    ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha

    CHERRY (SWEET CHERRY TREE) – fertigated orchards – fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ bud swelling / burst 0.3–0.55 kg/ha
    ◇ inflorescence emergence 0.3–0.55 kg/ha
    ◆ fruitlet development 0.3–0.55 kg/ha
    ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha

    PLUM TREE – orchards without fertigation– fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ bud swelling / burst 0.3–0.55 kg/ha
    ◆ inflorescence emergence 0.3–0.55 kg/ha
    ◆ fruitlet development 0.3–0.55 kg/ha
    ◆ the fruit reaches about 30% of final size 0.3–0.55 kg/ha
    ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha

    PEACH – orchards without fertigation – fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ inflorescence emergence 0.3–0.55 kg/ha
    ◆ fruitlet development 0.3–0.55 kg/ha
    ◆ the fruit reaches about 30% of final size 0.3–0.55 kg/ha
    ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha
    NECTARINE TREES – orchards without fertigation – fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ inflorescence emergence 0.3–0.55 kg/ha
    ◆ fruitlet development 0.3–0.55 kg/ha
    ◆ the fruit reaches about 30% of final size 0.3–0.55 kg/ha
    ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha
    APRICOT TREE – orchards without fertigation – fruiting orchard
    Application times (◆ optimal, ◇ optional):
    ◆ bud burst and inflorescence emergence 0.3–0.55 kg/ha
    ◆ fruitlet development 0.3–0.55 kg/ha
    ◆ the fruit reaches about 30% of final size 0.3–0.55 kg/ha
    ◆ before beginning of leaf color turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha
    CITRUS
    Application times (◆ optimal, ◇ optional):
    ◆ first new leaves visible 0.3–0.6 kg/ha
    ◆ beginning of flowering 0.3–0.6 kg/ha
    ◆ beginning of fruit development 0.3–0.6 kg/ha
    OLIVE GROVES – fruiting tree
    Application times (◆ optimal, ◇ optional):
    ◆ bud break  0.3–0.55 kg/ha
    ◆ inflorescence emergence 0.3–0.55 kg/ha
    ◆ beginning of flowering 0.3–0.55 kg/ha
    ◆ beginning of fruit development 0.3–0.55 kg/ha
    ◆ post-harvest 0.3–0.55 kg/ha

    COFFEE – fruting plantation
    Application times (◆ optimal, ◇ optional):
    ◆ inflorescence development 0.3–0.55 kg/ha
    ◆ pinhead 0.3–0.55 kg/ha
    ◆ intensive growth of fruit 0.3–0.55 kg/ha
    MANGO
    Application times (◆ optimal, ◇ optional):
    ◇ leaf development (BBCH 13–19) 0.3–0.55 kg/ha
    ◆ shoot development and growth (BBCH 22–39)  0.3–0.55 kg/ha
    ◆ bud development (BBCH 51–55) 0.3–0.55 kg/ha
    ◇ fruit development (BBCH 71–73) 0.3–0.55 kg/ha
    AVOCADO
    Application times (◆ optimal, ◇ optional):
    ◇ leaf development (BBCH 13–19) 0.3–0.55 kg/ha
    ◆ shoot development and growth (BBCH 22–39) 0.3–0.55 kg/ha
    ◆ bud and inflorescence development (BBCH 51–55) 0.3–0.55 kg/ha
    ◇ beginning of fruit development (BBCH 71–73) 0.3–0.55 kg/ha
    PAPAYA
    Application times (◆ optimal, ◇ optional):
    ◇ leaf development (BBCH 14–19) 0.3–0.55 kg/ha
    ◆ beginning of stem growth (BBCH 31–33) 0.3–0.55 kg/ha
    ◆ bud and inflorescence development (BBCH 51–55) 0.3–0.55 kg/ha
    ◇ beginning of fruit development (BBCH 71–73) 0.3–0.55 kg/ha
    GOOSEBERRY
    Application times (◆ optimal, ◇ optional):
    ◆ beginning of vegetation, during leaf and fruit development, 1–2 treatments every 7–14 days 0.3–0.55 kg/ha
    ◇ after fruit harvesting 0.3–0.55 kg/ha
    RASPBERRY plantations without fertigation – varieties fruiting in summer on two-year shoots
    Application times (◆ optimal, ◇ optional):
    ◆ bud burst 0.3–0.55 kg/ha
    ◆ leaf and shoot development 0.3–0.55 kg/ha
    ◆ beginning of inflorescence emergence 0.3–0.55 kg/ha
    ◆ before beginning of leaf colour turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha
    RASPBERRY plantations without fertigation – varieties fruiting in autumn on one-year shoots
    Application times (◆ optimal, ◇ optional):
    ◆ Spring: after start of growing season – leaf development 0.3–0.55 kg/ha
    ◇ first shoots reach the final length 0.3–0.55 kg/ha
    ◆ beginning of the first inflorescence development 0.3–0.55 kg/ha
    ◆ Autumn: before beginning of leaf colour turning 0.3–0.55 kg/ha
    CURRANT
    Application times (◆ optimal, ◇ optional):
    ◆ bud break (BBCH 07–09) 0.3–0.55 kg/ha
    ◆ leaf development (BBCH 15–19) 0.3–0.55 kg/ha
    ◆ shoot development (BBCH 33–39) 0.3–0.55 kg/ha
    ◆ after fruit harvesting, 1–2 treatments every 10–14 days (BBCH 91) 0.3–0.55 kg/ha
    BLUEBERRY – plantations without fertigation fruiting plantations
    Application times (◆ optimal, ◇ optional):
    ◆ bud breaking 0.3–0.55 kg/ha
    ◆ beginning of leaf colour turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha

    BORÓWKA AMERYKAŃSKA  plantacje fertygowane  plantacje owocujące
    Application times (◆ optimal, ◇ optional):
    ◆ bud breaking 0.3–0.55 kg/ha
    ◆ beginning of leaf colour turning: 1–2 treatments every 10–14 days 0.3–0.55 kg/ha
    GRAPEVINE
    Application times (◆ optimal, ◇ optional):
    ◆ beginning of leaf and new shoot development 0.3–0.6 kg/ha
    ◆ inflorescence emergence 0.3–0.6 kg/ha
    ◇ fruit development – until berries pea-sized 0.3–0.6 kg/ha
    ◆ post-harvest 0.3–0.6 kg/ha

    STRAWBERRY – plantations without fertigation – Summer-bearing varieties, not yet fruiting plantations – planted in autumn
    Application times (◆ optimal, ◇ optional):
    ◆ Autumn in the planting year: before beginning of leaf colour turning 0.3–0.55 kg/ha
    ◇ Spring – leaf and crown development 0.3–0.55 kg/ha
    ◆ Autumn in the first year after planting: before beginning of leaf colour turning 0.3–0.55 kg/ha
    STRAWBERRY plantations without fertigation – Summer-bearing varieties, fully fruiting plantations
    Application times (◆ optimal, ◇ optional):
    ◆ Spring: after start of growing season – leaf development 0.3–0.55 kg/ha
    ◆ beginning of inflorescence emergence  0.3–0.55 kg/ha
    ◆ Autumn: beginning of leaf colour turning, 1–2 treatments every 10–14 days 0.3–0.55 kg/ha

    STRAWBERRY – fertigated plantations – Summer-bearing varieties, planted in summer with green potted plantlets – Cultivation in soil
    Application times (◆ optimal, ◇ optional):
    ◆ Autumn in the planting year: before beginning of leaf colour turning 0.3–0.55 kg/ha

    ◆ Spring: after start of growing season

    		 0.3–0.55 kg/ha
    ◇ beginning of inflorescence emergence 0.3–0.55 kg/ha
    ◆ Autumn in the first year after planting: before beginning of leaf colour turning 0.3–0.55 kg/ha

    STRAWBERRY – fertigated plantations – Summer-bearing varieties, planted in spring with frigo plantlets – Cultivation in soil
    Application times (◆ optimal, ◇ optional):
    ◇/◆ leaf development and inflorescence emergence
    The treatment should be considered as optimal in conditions of limited zinc uptake by roots.    		 0.3–0.55 kg/ha
    ◆ before beginning of leaf colour turning 0.3–0.55 kg/ha

    STRAWBERRY – fertigated plantations – Everbearing varieties, planted in spring with frigo plantlets. Cultivation in soil or in soilless substrates.
    Application times (◆ optimal, ◇ optional):
    ◇ leaf development 0.3–0.55 kg/ha
    ◆ further leaf development and beginning of the first inflorescence development 0.3–0.55 kg/ha
    ◇ fruiting period: 1–2 treatments every 14–21 days 0.3–0.55 kg/ha

    STRAWBERRY – production of plantlets – production of freshly dug green plantlets
    Application times (◆ optimal, ◇ optional):
    ◆ Autumn in the planting year: before beginning of leaf colour turning 0.3–0.55 kg/ha
    ◆ Spring: leaf development 0.3–0.55 kg/ha
    ◆ Spring: beginning of runner growth 0.3–0.55 kg/ha
    ◇ Summer: development, growth and rooting of plantlets 0.3–0.55 kg/ha

    STRAWBERRY – production of plantlets – production of green potted plantlets
    Application times (◆ optimal, ◇ optional):
    ◆ FIELD GROWN NURSERY PLANTATIONS – autumn in the planting year: before beginning of leaf colour turning 0.3–0.55 kg/ha
    ◆ FIELD GROWN NURSERY PLANTATIONS – spring: leaf development 0.3–0.55 kg/ha
    ◆FIELD GROWN NURSERY PLANTATIONS – spring: beginning of runner growth 0.3–0.55 kg/ha
    STRAWBERRY – production of plantlets – production of of frigo plantlets  
    Application times (◆ optimal, ◇ optional):
    ◆ Autumn in the planting year: before beginning of leaf colour turning 0.3–0.55 kg/ha
    ◆ Spring: leaf development 0.3–0.55 kg/ha
    ◆ Spring: beginning of runner growth 0.3–0.55 kg/ha
    ◇ Summer: development, growth and rooting of plantlets 0.3–0.55 kg/ha

    ◆ Beginning of autumn: runners with rooted plantlets cover inter-row spaces

    (if there is possibility for foliar application)    		 0.3–0.55 kg/ha
    TOMATO
    Application times (◆ optimal, ◇ optional):
    ◇ 5–9 and more leaves unfolded on the main shoot (BBCH 15–19) 0.1–0.55 kg/ha
    ◇ 1–3 inflorescences visible (BBCH 51–53) 0.1–0.55 kg/ha
    PEPPER
    Application times (◆ optimal, ◇ optional):
    ◇ 5–9 and more leaves unfolded on the main shoot (BBCH 15–19) 0.1–0.55 kg/ha
    ◇ 1–3 inflorescences visible (BBCH 51–53) 0.1–0.55 kg/ha
    CUCUMBER
    Application times (◆ optimal, ◇ optional):
    ◇ 6–8 leaves unfolded on the main shoot (BBCH 16–18) 0.1–0.55 kg/ha
    ◇ 1–2 flower initials with elongated ovary visible on the main stem (BBCH 51–52) 0.1–0.55 kg/ha
    PUMPKIN
    Application times (◆ optimal, ◇ optional):
    ◇ 6–8 leaves unfolded on the main shoot (BBCH 16–18) 0.1–0.55 kg/ha
    ◇ 1–2 flower initials with elongated ovary visible on the main stem (BBCH 51–52) 0.1–0.55 kg/ha
    MELON
    Application times (◆ optimal, ◇ optional):
    ◇ 3–5 true leaves unfolded (BBCH 13–15) 0.1–0.55 kg/ha
    ◆ formation of primary side shoots (BBCH 21–29) 0.1–0.55 kg/ha
    ◆ 1–2 flower initials with elongated ovary visible on the main stem (BBCH 51–52) 0.1–0.55 kg/ha
    ◇ fruit development (BBCH 71–73) 0.1–0.55 kg/ha
    WATERMELON
    Application times (◆ optimal, ◇ optional):
    ◇ 3–5 true leaves unfolded (BBCH 13–15) 0.1–0.55 kg/ha
    ◆ formation of primary side shoots (BBCH 21–29) 0.1–0.55 kg/ha
    ◆ 1–2 flower initials with elongated ovary visible on the main stem (BBCH 51–52) 0.1–0.55 kg/ha
    ◇ fruit development (BBCH 71–73) 0.1–0.55 kg/ha
    ONION
    Application times (◆ optimal, ◇ optional):
    ◇/◆ growth of leaves (3–4 weeks after emergence / after planting seedlings to the soil)
    The application time should be considered as optimal when plants are grown on alkaline soils.    		 0.1–0.55 kg/ha
    ◇ beginning of onion bulb formation 0.1–0.55 kg/ha
    GARLIK
    Application times (◆ optimal, ◇ optional):

    ◇/◆ growth of leaves (3–4 weeks after emergence)
    The application time should be considered as optimal when plants are grown on alkaline soils.

    		 0.1–0.55 kg/ha
    ◇ beginning of garlic bulb formation 0.1–0.55 kg/ha
    LEEK
    Application times (◆ optimal, ◇ optional):

    ◇/◆ growth of leaves (3–4 weeks after emergence / after planting seedlings to the soil)
    The application time should be considered as optimal when plants are grown on alkaline soils.

    		 0.1–0.55 kg/ha
    ◇ beginning of harvestable plant part formation 0.1–0.55 kg/ha
    BROCCOLI
    Application times (◆ optimal, ◇ optional):
    ◇ growth of leaves 0.1–0.55 kg/ha
    ◇ beginning of the flower head development 0.1–0.55 kg/ha
    CAULIFLOWER
    Application times (◆ optimal, ◇ optional):
    ◇ growth of leaves 0.1–0.55 kg/ha
    ◇ beginning of the flower head development 0.1–0.55 kg/ha
    CABBAGE – GREEN/WHITE HEAD CABBAGE
    Application times (◆ optimal, ◇ optional):
    ◇ growth of leaves 0.1–0.55 kg/ha
    ◇ beginning of the head formation 0.1–0.55 kg/ha
    CABBAGE – RED HEAD CABBAGE
    Application times (◆ optimal, ◇ optional):
    ◇ growth of leaves 0.1–0.55 kg/ha
    ◇ beginning of the head formation 0.1–0.55 kg/ha
    CABBAGE – SAVOY CABBAGE
    Application times (◆ optimal, ◇ optional):
    ◇ growth of leaves 0.1–0.55 kg/ha
    ◇ beginning of the head formation 0.1–0.55 kg/ha
    CABBAGE – CHINESE CABBAGE
    Application times (◆ optimal, ◇ optional):
    ◇ growth of leaves 0.1–0.55 kg/ha
    ◇ beginning of the head formation 0.1–0.55 kg/ha
    BRUSSELS SPROUTS
    Application times (◆ optimal, ◇ optional):
    ◇ growth of the main stem and leaves 0.1–0.55 kg/ha
    ◇ beginning of axillary bud (‘sprouts’) formation 0.1–0.55 kg/ha
    KOHLRABI
    Application times (◆ optimal, ◇ optional):
    ◇ growth of leaves 0.1–0.55 kg/ha
    RADISH
    Application times (◆ optimal, ◇ optional):
    ◇ growth of leaves 0.1–0.55 kg/ha
    KALE
    Application times (◆ optimal, ◇ optional):
    ◇ after seedling adaptation to field conditions – leaf development 0.1–0.55 kg/ha
    ◇ growth of the main stem and leaves 0.1–0.55 kg/ha
    CARROT
    Application times (◆ optimal, ◇ optional):
    ◇ 3–4 true leaves (BBCH 13–14) 0.1–0.55 kg/ha
    ◆ 5 true leaves / root begins to expand until root reaches 20% of typical diameter (BBCH 15/41–42) 0.1–0.55 kg/ha
    ◆ root reaches 30–40% of typical diameter (BBCH 43–44) 0.1–0.55 kg/ha
    PARSLEY
    Application times (◆ optimal, ◇ optional):
    ◆ 5 true leaves / root begins to expand until root reaches 20% of typical diameter (BBCH 15/41–42) 0.1–0.55 kg/ha
    ◇ root reaches 30–40% of typical diameter (BBCH 43–44) 0.1–0.55 kg/ha
    PARSNIP
    Application times (◆ optimal, ◇ optional):
    ◆ 5 true leaves / root begins to expand until root reaches 20% of typical diameter (BBCH 15/41–42) 0.1–0.55 kg/ha
    ◇ root reaches 30–40% of typical diameter (BBCH 43–44) 0.1–0.55 kg/ha
    CELERY
    Application times (◆ optimal, ◇ optional):
    ◆ 7–8 true leaves (BBCH 17–18) 0.1–0.55 kg/ha
    ◇ 9 true leaves / root begins to expand (BBCH 19/41) 0.1–0.55 kg/ha
    BEETROOT
    Application times (◆ optimal, ◇ optional):
    ◇ 5 true leaves / beginning of crop cover (BBCH 15/31) 0.1–0.55 kg/ha
    ◇ storage root begins to develop, diameter above 2 cm (BBCH 41–43) 0.1–0.55 kg/ha
    NURSERY OF PERENNIAL ORNAMENTAL PLANTS
    Application times (◆ optimal, ◇ optional):
    ◇ 1–2 treatments every 7–21 days in spring

    0.1–0.55 kg/ha
    ◇ 1–2 treatments every 7–21 days in autumn 0.1–0.55 kg/ha
    NURSERY OF ORCHARD PLANTS
    Application times (◆ optimal, ◇ optional):
    ◇ 1–2 treatments every 7–21 days in spring 0.1–0.55 kg/ha
    ◇ 1–2 treatments every 7–21 days in autumn 0.1–0.55 kg/ha
    ORNAMENTAL PLANTS
    Application times (◆ optimal, ◇ optional):
    ◇ 1–2 treatments every 7–21 days in spring 0.1–0.55 kg/ha
    ◇ 1–2 treatments every 7–21 days in autumn 0.1–0.55 kg/ha