Application features & examples

Bioresis BioTerra 700 Biofertilizer

Application examples

Crimea, 2016

  • 1 soil dressing and 4 foliar dressings
  • The mean increase of the berry count in a bunch +21%
  • The mean weight increase of an individual berry +8.1%

Private hothouse facility, town Timashevsk, Krasnodar Krai
November 2017 – June 2018

  • Pileus

Work solution Bioresis BioTerra 700 Biofertilizer
0.75 l per 200 l water per 120 m2 for every treatment (by waves)

up to 30 c / Ha

Seed treatment (per 1 ton) | 0.5

Sheet processing (l per 1 ha)
1 processing | seedlings | 1.0
herbicide treatment | 0.3
2 processing | tillering | 1.5
3 processing | exit to the tube | 1.5
4 processing | earing / flag leaf | 1.5
5 processing | filling (ripeness) | 1.5


Land cultivation (1 ha) | 2.5


more than 30 hectares


Seed treatment (per 1 ton) | 0.5


Sheet processing (l per 1 ha)
1 processing | seedlings | 1.0
herbicide treatment | 0.3
2 processing | tillering | 2.0
3 processing | exit to the tube | 2.5
4 processing | earing / flag leaf | 2.5
5 processing | filling (ripeness) | 2.5
Land cultivation (1 ha) | 3.5

Seed treatment (per 1 ton) | 0.5

 

Sheet processing (l per 1 ha)

1 processing | phase of 5-7 leaves | 1.0

herbicide treatment | 0.3

2 processing | the beginning of the ejection of the panicle | 1.0

3 processing | flowering | 2.0

4 processing | filling (ripeness) | 2.5

 

Landcultivation (1 ha) | 3.5

Seed treatment (per 1 ton) | 0.5


Sheet processing (l per 1 ha)
1 processing | phase of 3-4 leaves | 1.0
herbicide treatment | 0.3
2 processing | basket formation | 1.5
3 processing | flowering | 2.0
4 processing | the beginning of ripening | 2.5


Land cultivation (1 ha)| 3.5

Seed treatment (per 1 ton) | 0.8

Sheet processing (l per 1 ha)
1 processing | 2-4 true sheets | 1.0
herbicide treatment | 0.3
2 processing | closing in rows | 1.5
3 processing | closing in row spacing | 2.0
4 processing | filling | 2.0

Land cultivation (1 ha) | 3.5

Seed treatment (per 1 ton) | 0.5

Sheet processing (l per 1 ha)
1 processing | seedlings | 1.0
herbicide treatment | 0.3
2 processing | branching | 2.0
3 processing | budding | 1.5
4 processing | pod growth | 1.5
5 processing | grain filling | 2.5

Land cultivation (1 ha) | 2.5

Seed treatment (per 1 ton) | 0.5


Sheet processing (l per 1 ha)
1 processing | 3-5 true sheets | 1.0
herbicide treatment | 0.3
2 processing | branching | 1.5
3 processing | budding | 1.5
4 processing | pod growth | 1.5
5 processing | grain filling | 2.5


Land cultivation (1 ha) | 2.5

Seed treatment (per 1 ton) | 0.5


Sheet processing (l per 1 ha)
1 processing | seedlings | 1.0
herbicide treatment | 0.3
2 processing | branching | 2.0
3 processing | budding | 1.0
4 processing | pod growth | 1.5
5 processing | fruit formation | 2.5


Land cultivation (1 ha) | 2.5

Seed treatment (per 1 ton) | 0.8


Sheet processing (l per 1 ha)
1 processing | seedlings (10-15 cm) | 1.0
herbicide treatment | 0.3
2 processing | budding | 1.5
3 processing | after flowering | 2.0
4 processing | maturation | 2.5


Land cultivation (1 ha) | 2.5

Seed treatment (per 1 ton) | 0.5


Sheet processing (l per 1 ha)
1 processing | seedlings | 1.0
herbicide treatment | 0.3
2 processing | planting seedlings | 1.0
3 processing | growth of leaf mass | 2.5
4 processing | head formation | 2.5


Land cultivation (1 ha) | 2.5

Seed treatment (per 1 ton) | 0.8


Sheet processing (l per 1 ha)
1 processing | fork | 1.0
herbicide treatment | 0.3
2 processing | 3-4 true sheets | 1.0
3 processing | beginning of root crop formation | 2.0
4 processing | root crop growth | 2.5
5 processing | root vegetable filling | 2.0


Land cultivation (1 ha) | 2.5

Seed treatment (per 1 ton) | 0.8


Sheet processing (l per 1 ha)
1 processing | seedlings | 1.0
herbicide treatment | 0.3
2 processing | 5-6 true leaves / tillering | 1.5
3 processing | tube / flag sheet | 2.5
4 processing | flowering | 1.5
5 processing | ripening / ripeness | 3.0


Land cultivation (1 ha) | 1.0

Seed treatment (per 1 ton) | 0.8


Sheet processing (l per 1 ha)
1 processing | 3-5 true sheets | 1.0
herbicide treatment | 0.3
2 processing | planting seedlings | 1.0
3 processing | flower brush | 1.0
4 processing | flowering | 1.0
5 processing | every 7 days | 2.0


Land cultivation (1 ha) | 3.5

Seed treatment (per 1 ton) | 0.8


Sheet processing (l per 1 ha)
1 processing | 3-5 true sheets | 1.0
herbicide treatment | 0.3
2 processing | planting seedlings | 1.0
3 processing | flower brush | 1.0
4 processing | flowering | 1.0
5 processing | every 7 days | 2.0


Land cultivation (1 ha) | 3.5

Seed treatment (per 1 ton) | 0.8

Sheet processing (l per 1 ha)
1 processing | 3-5 true sheets | 1.0
herbicide treatment | 0.3
2 processing | transplanting seedlings | 1.0
3 processing | budding | 1.0
4 processing | ovary | 2.5
5 processing | every 7 days | 2.5

Land cultivation (1 ha) | 3.5

Cuttings treatment (per 1 ton) | 1.0

 

Leaf treatments (l per 1 ha)

1 treatment | waking / bud | 1.0

herbicide treatment | 0.3

2 treatments: budding | 2.0

3 x treatment in ovaries | 2.5

4 x treatment after 14 days | 2.5

5 treatment in 14 days | 2.5

 

Land treatment (1 ha) | 3.5

Crimea, 2016

  • 1 soil dressing and 4 foliar dressings
  • The mean increase of the berry count in a bunch +21%
  •  The mean weight increase of an individual berry +8.1%
 

Effect of four foliage sprayings with Bioresis BioTerra 700 Biofertilizer preparation on productivity and quality of table grape variety Amber Muscat, and wine grape variety Cabernet-Sauvignon, in the South Coast of Crimea.

1. Foliage dressings with Bioresis BioTerra 700 Biofertilizer, normally 4.0 l/Ha, in compliance with the developed treatment scheme, cause a crop increase of Amber Muscat of up to 35.2 %, with a yield increase of 3.8 tons/Ha.

2. Foliage dressings with Bioresis BioTerra 700 Biofertilizer, normally 4.0 l/Ha, (100 ml / 20 l Н2О) cause a crop increase of Cabernet-Sauvignon up to 38.5 %, with a yield increase of 3.0 tons/Hа.


3. Foliage dressings had a positive impact on the quality indexes of Amber Muscat : the mean bunch weight increased by 40.6 %, the total sugars in the berry juice grew by 4.3 %,and the value of gluco-acidometric index grew by 12.5 %.

4. The positive impact of foliage dressings on the quality indexes of CabernetSauvignon : the mean bunch weight increased by 24.7 %, and the total sugars in the berry juice grew by up to 9.7 %.


5. The impact of foliage dressings with Bioresis BioTerra 700 Biofertilizer on the uvological indexes of the grape varieties studied: for Amber Muscat, the mean berry weight increased by 36.8 %, and the weight of 100 berries increased by 26.3 %. Next, the texture indexes increased by 19.3 % compared with the control, and the berry index (the count of berries per 100 g of a bunch) values declined by 26.2 %. For CabernetSauvignon, the mean weight of a berry in a bunch increased by up to 40.0 %, and the weight of 100 berries increased by up to 28.8 %. The texture indexes grew by up to 18.4 %, and the berry index values declined by up to 27.8 % compared with the control .

6. Four foliage dressings with Bioresis BioTerra 700 Biofertilizer activate plant growth. In Amber Muscat, the mean shot length increased by up to 21.9 %, and in Cabernet-Sauvignon, it increased by up to 29.8 %, the leaf-area duration of the bushes increased by up to 24.7% and by up to 37.5%, respectively, compared with the control. The most intensive shoot growth was observed in experimental variations with the preparation consumption of 4.0 l/Hа(100 ml / 20 l Н2О). Shoot maturation was improved by 16.3 % for Amber Muscat and by 15.8 % for Cabernet-Sauvignon.

Private hothouse facility, town Timashevsk, Krasnodar Krai
November 2017 – June 2018

  • Pileus
 

Work solution Bioresis BioTerra 700 Biofertilizer

0.75 l per 200 l water per 120 m2 for every treatment (by waves)

1) Preparation Bioresis BioTerra 700 Biofertilizer accelerates the hyphae restoration process in the compost. When the temperature in the compost rises to +28-32⁰С, the hyphae usually die out or tail off for a period of time. This reduces their ability to grow out.

After treatment with Bioresis BioTerra 700 Biofertilizer, the hyphae resist the temperature rise without any activity deterioration and endure rapid temperature changes in the upper range. The colonization process in these conditions is intensive, the hyphae stay alive, intact and grow out intensively. 

For comparison, in standard conditions (without application of Bioresis BioTerra 700 Biofertilizer) the temperature increase above the permissible levels makes the hyphae look grey, unhealthy, and so they hardly grow out when awakened. When Bioresis BioTerra 700 Biofertilizer is applied, they look snow-white and strong. Intensive mushroom growth follows.

One just needs proper dosage control for the mushrooms to grow evenly without opening and cracking. If the wrong dosages are applied, there is a risk of failure to harvest them because of over сcolonization in the mushroom areas. The shelf life of the mushrooms may be shortened after treatment with Bioresis BioTerra 700 Biofertilizer.

2) When Portobello mushrooms are grown, colonization of the mushroom areas may be uneven, with up to 40% of “empty” areas, with bare patches and yield losses. Application of Bioresis BioTerra 700 Biofertilizer gave an increase in the colonization area. The total “empty” area was below 4.5-5 % (instead of 40 %). This is all the work area, all other conditions being equal (compost and the seed material).

3) Application of Bioresis BioTerra 700 Biofertilizer demonstrated that the extra seventh and even eighth yields can be obtained in an annual cycle.It also showed that colonization with the fourth-wave mushrooms is possible in the volume practically equal to those harvested in the previous waves. The mean indexes of the first, second, third waves (and the fourth with Bioresis BioTerra 700 Biofertilizer) also increase compared with those obtained using standard practice from 100/70/35 to 100/90/70/80.

4) Also, application of Bioresis BioTerra 700 Biofertilizer led to increased mushroom size and to a reduced proportion of small mushrooms in the crop from 40 % to 5 %.

Control:

  • Less than 60 % of the area works 
  • The first mushrooms appear on day 32
  • The proportion of small mushrooms is up to 40 % of the total yield
  • Varied size of the cultivated mushrooms 
  • More than 90 % of the area works
  • The first mushrooms appear on day 28
  • The proportion of small mushrooms is up to 5 % of the total yield
  • Overheating accelerates hyphae restoration in temperature changes
  • Incidence of fungal diseases decreases
  • The bulk of the mushrooms are standard size
  • Themushroomsbecomemoredense
  • The organoleptic parametres mushrooms are considerably improved
  • Opening of the mushrooms is accelerated

Private hothouse facility, town Timashevsk, Krasnodar Krai
November2017 -June 2018

  • Bioresis BioTerra 700 Biofertilizer — 0.1 l per 10 l water for spraying pea-sized primordia
  • After harvesting the first yield, the slits in the bags must be treated for obtaining the second yield

1. Application of Bioresis BioTerra 700 Biofertilizer to the chaff in the experimental bags at the ratio of 50 ml/ 1.5 l non-chlorinated water leads to good response of the primordia to awakening in all the six holes, while in the control, their appearance is observed in the mean of 3 to 5 holes.


2. Further, the treatment of newly-hatched primordia with 1:100 work solution of Bioresis BioTerra 700 Biofertilizer was performed at their earliest stage, which later led to the yield enhancement from 3 kg / bag to 5 kg / bag.


3. All the druses increased their weight from the standard of 500-800 g to 600-900 g, and the weight of some reached 1,100 g.