Use scheme for farmers (professionals)

Blog 08/17/2021

For maximum results, we recommend using Microbiological preparations in three ways:

  1. Tillage in autumn and spring;
  2. Seed pre-treatment (pickling);
  3. For spraying crops during the growing season.

Tillage in autumn.

Option 1:

For spraying straw and other plant residues before incorporation into the soil.

((Mineralization with cellulose degrading and nitrogen-fixing bacteria).

Consumption: 5 L of the preparation with 50-150 water per 1 ha. @BioKomposer

Option 2:

After germination using it for treatment with the preparation mixture 5 L / ha.

Working solution rate 50-150 L / ha. @BioMix

3.Options 3:

When mixed with mineral and/or organic fertilizers.

Preparation of working solution: 5 L of preparation with 50-150 L of water per ha. @SubtiMix

Tillage in spring.

Option 1:

Pre-sowing for cultivation of soil with organic and / or mineral fertilizers.

Preparation of working solution: 5 L of preparation with 50-150 L of water per ha. @SubtiMix

Option 2:

The first spraying of winter sowings.

Consumption: 5 L of the preparation with 50-150 L of water per ha. @BioMix

Pre-treatment of seeds: pre-treatment of seeds without or in combination with any pickling agents.

Consumption: 5 L of preparation per 1 ton of seed. @BioMix

Recommended crop treatment schemes with Microbiologicals.

Agriculture Seed treatment Treatment during the growing season Preparation of working solution

Winter wheat

Winter rye

Winter barley

Winter triticale

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @BioMix

  3-fold plant spraying during the growing season:

  1. Spraying in autumn to control viral and spore vectors and winter diseases; @SubtiMix
  2. Spraying during weaning – at the beginning of the stalks; @Trichodermin + @Azotobacter
  3. Spraying during the flowering phase, at the beginning of maturity. @Trichodermin
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution.

Oats

Summer wheat

Summer barley

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @BioMix

  2-fold plant spraying during the growing season:

  1. Spraying during weaning; @SubtiMix + @Azotobacter
  2. Spraying during spinning, early maturity @Trichodermin
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution.

Rapeseed

Winter rapeseed

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @BioMix

  3-fold plant spraying during the growing season:

  1. Spraying during germination, during the formation of the first 2 true leaves; @SubtiMix
  2. Spraying at the beginning of leaf rosette formation, during branching; @Trichodermin + @Azotobacter
  3. Spraying during flower bud formation. @Trichodermin + @Bacilons
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Summer rapeseed

Summer turnip rape

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @BioMix

  3-fold plant spraying during the growing season:

  1. Spraying during germination, during the formation of the first 2 true leaves; @ SubtiMix+ @Azotobacter
  2. Spraying at the beginning of leaf rosette formation, during branching; @Trichodermin + @Bacilons
  3. Spraying during flower bud formation. @Trichodermin + @Bacilons
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Peas

Beans

Broad beans

Lentil

Vetch

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @Nitragīns

  3-fold plant spraying during the growing season:

  1. Spraying during seedling formation and 2-3 leaf formation time; @Trichodermin
  2. Spraying during 5-6 leaf formation time, at the beginning of flower bud formation; @Trichodermin + @Bacilons
  3. Spraying during flowering. @Trichodermin + @Bacilons
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Buckwheat

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @BioMix

  2-fold plant spraying during the growing season:

  1. Spraying during branching, at the beginning of flower bud formation; @Trichodermin + @Azotobacter
  2. Spray 10-14 days after the first spray. @Trichodermin
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Soybeans

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @Nitragīns

  2-fold plant spraying during the growing season:

  1. Spraying during germination and during 2-3 true leaf formation time; @Trichodermin
  2. Spraying during formation of stalks, at the beginning of flower formation; @Trichodermin + @Bacilons
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Flax

  Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @BioMix

  2-fold plant spraying during the growing season:

  1. Spraying during inflorescence formation; @Trichodermin
  2. Spraying 15-20 days after the last spraying; @Trichodermin
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Clover

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 100 kg of seed

@Nitragīns

Alfalfa

Galega

Sweet clovers

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 100 kg of seed

@Nitragīns

Potatoes

  Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @SubtiMix

  3-fold plant spraying during the growing season:

  1. Spraying during 5-7 leaf formation time; @Trichodermin + @Bacilons
  2. Spraying during flower bud formation; @Trichodermin + @Bacilons + @Azotobacter
  3. Spraying during flower bud formation. @Trichodermin
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Tomatoes

Cucumbers

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @SubtiMix

  4-layer plant spraying during the growing season:

  1. Spraying during 2-4 leaf formation time; @Trichodermin + @Bacilons
  2. Spraying during flower bud formation; @Trichodermin + @Bacilons + @Azotobacter
  3. Spraying during flowering. @Trichodermin
  4. Spraying during the mature period. @Trichodermin
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Onions

Garlic

Seed pre – treatment before sowing

Working solution: 5 L to 50 L of water per 1 ton of seed @SubtiMix

  2-fold plant spraying during the growing season:

  1. Spraying during 2-3 leaf formation time; @Trichodermin + @Bacilons
  2. Spraying 15-20 days after the last spraying; @Trichodermin + @Bacilons
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Strawberries

Soaking of plant roots before planting. Working solution: 1 L to 10 L of water. @SubtiMix

  4-layer plant spraying during the growing season:

  1. Spraying during flower bud formation; @Trichodermin + @Bacilons
  2. Spraying during flowering; @Trichodermin
  3. Spraying 5-7 days after flowering; @Trichodermin
  4. Spraying during berry ripening. @Trichodermin
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

Grape vines

Blackberries

Blackcurrants

Sea buckthorns

Soaking of plant roots before planting. Working solution: 1 L to 10 L of water. @Trichodermin + @Azotobacter

 3-fold plant spraying during the growing season:

  1. Spraying during flower bud formation; @Trichodermin
  2. Spraying after flowering; @Trichodermin
  3. Spraying during berry ripening. @Trichodermin
  Dissolve 5 L of the preparation in 50-100 L of water (without chlorine) and treat 1 ha with the resulting solution

@Trichodermin – Trichoderma sp, Trichoderma harzianum, Trichoderma viride

Mushrooms are widespread in the soil. Grows well in the rhizosphere and is able to colonize plant roots, ensuring the exchange of nutrients. Trichoderma sp parasites and uses other fungi and rot in its diet, thus ensuring plant protection against these microorganisms. It is resistant to fungicides, thus remaining in the soil, providing additional protection against rot.

The growth and development of plants increases in the presence of Trichoderma sp, and the plant develops stronger roots. The number of deep roots of plants increases, which provides resistance during the drought period.

Packaging: 1-20 L

@SubtiMix – Bacillus subtilis + Trichoderma sp

Free-living bacteria that form endospores in the soil. During the formation of spores, antibiotics are released into the soil, which affects the development of other microorganisms, ensuring the survival of Bacillus subtilis. These substances can also act as fungicides, affecting the spread of molds.

B.subtilis, growing around plant roots, is able to form a colony biofilm, promoting plant growth u:

(*) B.subtilis competes with other micro-organisms that would adversely affect the plant,

(**) B.subtilis activates the plant protection system, ensuring its ability to resist pathogens,

(***) B.subtilis provides access to nutrients, eg phosphorus, nitrogen s.

B.subtilis is involved in the nitrogen and phosphorus life cycles, releasing compounds of these elements as metabolic by-products in a form acceptable to plants.

Packaging: 1-20 L

@Biomix – Pseudomonas sp, Pseudomonas putida+ Trichoderma sp+ Streptomyces sp, Streptomyces cellulosae, Streptomyces griseoviridis+ Azotobacter sp

Aerobic bacteria living freely in the soil. Forms a mutual relationship with plant roots. Living on the roots, in the rhizosphere, bacteria feed on the nutrients released by the plant, while the substances released by P.putida Aerobic bacteria living freely in the soil. Forms a mutual relationship with plant roots. Living on the roots, in the rhizosphere, bacteria feed on the nutrients released by the plant, while the substances released by.

P.putida has a diverse aerobic metabolism, which is able to degrade organic compounds and various organic solvents. Recycling such compounds rehabilitates the soil.

Streptomyces sp, Streptomyces cellulosae, Streptomyces griseoviridis

Bacteria living freely in the soil. Produces fungicides and antibiotics. Located in the rhizosphere, it protects plant roots from pathogens. Produces auxin and cytokinin, which stimulates plant growth.

Packaging: 1-20 L

@Azotobacter – Azotobacter sp, Azotobacter chroococcum

Living freely in the soil, airborne nitrogen-fixing bacteria. They synthesize auxins, cytokinins and other substances necessary for plant growth. By stimulating rhizosphere micro-lights, it helps to protect plants from phytopathogens. Improves nutrient uptake by plants and fixes biological nitrogen. Spreads well in neutral or alkaline environments. Unsuitable conditions, in the absence of water, can form from drying-resistant cysts. Azotobacterin is able to bind 20-40 kg of nitrogen per 1 ha per year.

Packaging: 1-20 L

@Nitragīns – Rhizobia is a soil bacterium that forms symbiotic relationships with plants. This relationship is mutually beneficial. The plant provides the bacteria with amino acids, while the bacteria fix the atmospheric nitrogen, converting it into a form that the plant can absorb. Rhizobia bacteria form tubers in the roots of plants, where nitrogen fixation is also performed. This process is influenced by soil pH, the microbiota near the plant and the nitrogen available in the soil.

In order forRhizobium bacteria to form tubers, they must bind to certain groups of plants

Packaging: 1-20 L

@Bacilons – Bacillus thuringiensis Free-living soil bacteria. In their development, two phases are distinguished – vegetative cell division and spore formation, or sporulation cycle. Sporulation is divided into several stages, in one of which protein crystals are formed in the spore. These protein crystals are toxic only to insect larvae because they are activated in the alkaline environment of the intestinal tract when eaten. Once in the larva’s body, the toxin breaks down the intestinal wall and the larva dies of starvation or infection. This process can take from a few hours to several weeks, but on average 3 to 7 days. The effectiveness of the toxin is related to the development of the larvae. Newly hatched and young larvae are more susceptible, but as the larva grows, it may develop resistance, reducing the possibility of the toxin being activated in the digestive system.

Once in the intestinal tract of, for example, humans or animals, the protein is not activated and no damage occurs.

Packaging: 1-20 L

@Biocomposter – Polyangium sp, Polyangium cellulosum+ Trichoderma sp+ Azotobacter sp

Aerobic bacteria living freely in the soil. Nutrients are obtained by processing cellulose. Able to produce fungicides and bactericides that affect the growth of other microorganisms.

Packaging: 1-20 L