Institute of Flax
http://institut-lna.by/
211003, Vitebsk region, Orsha district, ag. Ustye, Central str. 27.
http://institut-lna.by/
211003, Vitebsk region, Orsha district, ag. Ustye, Central str. 27.
Technology for using microfertilizers "MicroStim" and "MicroSil" in flax crops
COUNTRY OF ORIGIN
BelarusIDENTIFIER
TO8125PUBLISHED
2023-11-02LAST UPDATE
2023-11-05DEADLINE
Linked profile in other language
Responsible
Margarita Maslinskaia
institut_len@tut.by
institut_len@tut.by
Summary
The Flax Institute offers consumers the technology of using "MicroStim" and "MicroSil" microfertilizers to increase disease resistance, yield and quality in flax crops under a commercial agreement with technical assistance or a license agreement and is looking for partners to conclude a technical cooperation agreement.
Description
Complex compositions of microfertilizers have been developed:
- "MicroStim" - for seed inlay (5.0 l/t) and foliar treatment of flax plants in the herringbone phase (1-2 l/ha), including microelements in chelated form and the plant growth regulator Hydrohumin;
- "MicroSil" - for inlaying flax seeds ("MicroSil-Copper-Zinc-Boron IS") - 5.0 l/ha; for foliar feeding of flax crops (“MicroSil-Boron”, “MicroSil-Boron-Copper”, “MicroSil-Zinc-Boron”) - 1.0-2.0 l/ha.
The use of complex microfertilizers "MicroStim" and "MicroSil" for treating seeds and plants reduces the incidence of flax diseases, including calcium chlorosis, increases the yield and quality of flax products, ensuring profitable production.
- "MicroStim" - for seed inlay (5.0 l/t) and foliar treatment of flax plants in the herringbone phase (1-2 l/ha), including microelements in chelated form and the plant growth regulator Hydrohumin;
- "MicroSil" - for inlaying flax seeds ("MicroSil-Copper-Zinc-Boron IS") - 5.0 l/ha; for foliar feeding of flax crops (“MicroSil-Boron”, “MicroSil-Boron-Copper”, “MicroSil-Zinc-Boron”) - 1.0-2.0 l/ha.
The use of complex microfertilizers "MicroStim" and "MicroSil" for treating seeds and plants reduces the incidence of flax diseases, including calcium chlorosis, increases the yield and quality of flax products, ensuring profitable production.
Advantages and Innovations
Inlaying flax seeds with the "MicroStim" preparation ensures an increase in seed yield by 6.9-8.3%, fiber by 11.3-16.0%, conditional net income of 76.3 USD/ha, production profitability of 57.2 %.
Foliar feeding of flax with microfertilizers "MicroSil-Boron", "MicroSil-Zinc-Boron" and "MicroSil-Boron-Copper" during the germination phase - "herringbone" helps to increase the yield of fiber flax: seeds - by 0.9-3.4, fiber - by 4.6-7.2 c/ha; oil flax yield: seeds - by 4.0-5.8 c/ha, oil content in seeds - by 1.4-2.8%; provides a conditional net income of 374.4-671.5 thousand rubles/ha, respectively.
Foliar feeding of flax with microfertilizers "MicroSil-Boron", "MicroSil-Zinc-Boron" and "MicroSil-Boron-Copper" during the germination phase - "herringbone" helps to increase the yield of fiber flax: seeds - by 0.9-3.4, fiber - by 4.6-7.2 c/ha; oil flax yield: seeds - by 4.0-5.8 c/ha, oil content in seeds - by 1.4-2.8%; provides a conditional net income of 374.4-671.5 thousand rubles/ha, respectively.
Stage of development
Already on the market
Comments regarding stage of development
Technical specifications for microfertilizers “MicroStim” and “MicroSil” have been developed. The preparations are included in the catalog of pesticides and fertilizers approved for use in the territory of the Republic of Belarus. The technology for using microfertilizers in flax crops has been introduced in flax-growing farms of the Republic of Belarus since 2009.
Funding source
State budged
Internal
Internal
IPR status
Exclusive rights
Secret know-how
Secret know-how
Sector group
Agrofood
BioChemTech
Environment
BioChemTech
Environment
Client information
Type
R&D institution
Year established
2000
NACE keywords
A.01.16 - Growing of fibre crops
A.01.61 - Support activities for crop production
M.72.11 - Research and experimental development on biotechnology
M.72.19 - Other research and experimental development on natural sciences and engineering
M.74.90 - Other professional, scientific and technical activities n.e.c.
A.01.61 - Support activities for crop production
M.72.11 - Research and experimental development on biotechnology
M.72.19 - Other research and experimental development on natural sciences and engineering
M.74.90 - Other professional, scientific and technical activities n.e.c.
Turnover (in EUR)
10-20M
Already engaged in transnational cooperation
Yes
Additional comments
The main priority areas of activity of the Institute of Flax of the National Academy of Sciences of Belarus are:
Creation of new highly productive varieties of fiber flax of various ripeness groups and high-yielding, high-fat varieties of oilseed flax, having high technological and nutritional qualities of the oil.
Primary seed production of zoned and promising varieties of fiber flax and oil flax.
Development of environmentally friendly, resource-saving technologies for cultivating and harvesting new and promising varieties of fiber flax and oil flax in the conditions of the Republic of Belarus.
Development of agrotechnical methods for increasing the yield and quality of flax products and reducing the cost of production of flax products.
Monitoring the morphophysiological and phytosanitary state of fiber flax crops.
Improving techniques for managing processes occurring during aging of flax straw.
Introduction of scientific developments into agricultural production, advanced training of personnel in the flax growing industry.
International scientific and technical cooperation has been established with leading research organizations in the Russian Federation, Ukraine, Kazakhstan, and Poland involved in the cultivation and processing of flax.
Creation of new highly productive varieties of fiber flax of various ripeness groups and high-yielding, high-fat varieties of oilseed flax, having high technological and nutritional qualities of the oil.
Primary seed production of zoned and promising varieties of fiber flax and oil flax.
Development of environmentally friendly, resource-saving technologies for cultivating and harvesting new and promising varieties of fiber flax and oil flax in the conditions of the Republic of Belarus.
Development of agrotechnical methods for increasing the yield and quality of flax products and reducing the cost of production of flax products.
Monitoring the morphophysiological and phytosanitary state of fiber flax crops.
Improving techniques for managing processes occurring during aging of flax straw.
Introduction of scientific developments into agricultural production, advanced training of personnel in the flax growing industry.
International scientific and technical cooperation has been established with leading research organizations in the Russian Federation, Ukraine, Kazakhstan, and Poland involved in the cultivation and processing of flax.
Languages spoken
English
Russian
Russian
Information about partnership
Type of partnership considered
Commercial agreement with technical assistance
License agreement
Technical cooperation agreement
License agreement
Technical cooperation agreement
Type and role of partner sought
Consumers interested in purchasing the technology for using MicroStim and MicroSil microfertilizers to increase disease resistance, yield and quality in flax crops under a commercial agreement with technical assistance or a license agreement.
Partners interested in developing the technology for using MicroStim and MicroSil microfertilizers to increase disease resistance, yield and quality in flax crops under a technical cooperation agreement.
Partners interested in developing the technology for using MicroStim and MicroSil microfertilizers to increase disease resistance, yield and quality in flax crops under a technical cooperation agreement.
Type and size of partner sought
> 500
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Sole proprietor
251-500
SME 51-250
SME 11-50
SME <= 10
R&D Institution
University
Sole proprietor
Attachments
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Statistics since 02.11.2023 15:50:29
Statistics since 02.11.2023 15:50:29