Catalogue of Innovation Technology Offers by Organizations of NAS of Belarus
View Offer
Respond to this Technology Offer (Preferably in English)
Ion exchange substrate TRIONA®
Link to Contact Information
(Only For Members of GetOwner Role)
Ref:
TO
2454
Submission Date:
20/05/2019
Active before:
31/12/2021
Contact Information
Department:
The Department of Biological Sciences
Organization:
The State Scientific Institution "The V.F. Kuprevich Institute of Experimental Botany of the National Academy of Sciences of Belarus"
Name:
Kalatskaya Joanna Nikolaevna
Email:
kalatskayaj@mail.ru
Telephone:
+375(17)234-20-62
Link to website:
[url]http://botany-institute.bas-net.by/[/url]
Link to the corresponding profile
in Russian
Summary
The V.F.Kuprevich Institute of Experimental Botany of the National Academy of Sciences of Belarus [url]http://botany.by/[/url] offers ion exchange substrate TRIONA® and technology for its production. TRIONA® is used for all-the-year-round growing of plants in simulated artificial conditions without additional fertilizer application: indoor and decorative plant growing, accelerated reproduction of wood and shrub plants, modern technologies of microclonal propagation of plants.
Technology Type
Process
Material
Technology Benefits
Composition and advantages of ion-exchange substrates: TRIONA® is an ion-exchange substrate optimized for a specific culture, consisting of natural and synthetic ion-exchange materials with high selectivity of binding of mineral elements. The substrate does not contain organic additives and is biologically sterile, seed-free weeds, pests and pathogens are root-inhabited environment for plant cultivation.
Technology Differentiation and Uniqueness
The substrate retains for a long time 14 important macro and microelements in the optimum proportions and quantities necessary for the mineral nutrition of plants: nitrogen, phosphorus, potassium, calcium, magnesium, sulfur, iron, copper, zinc, boron, manganese, molybdenum, cobalt, nickel, eliminating leaching during watering. This makes it possible to grow plants for a long time (up to 7 years) without additional application of mineral fertilizers.[br][/br]
Technological Keywords
Substrate, ion-exchange materials, all-the-year-round growing of plants
Development Stage
Currently in use/production
Intellectual Property Rights
Secret Know-How
Other:
Trade mark. Certificate № 24289 РБ
Range of Applications
All-the-year-round growing of plants in simulated artificial conditions without additional fertilizer application: indoor and decorative plant growing, accelerated reproduction of wood and shrub plants, modern technologies of microclonal propagation of plants.
Classifier Used at the Enterprise Europe Network
Agrofood
Biotech, Pharma and Cosmetics
Environment
Wood and Furniture
Classifier Used at the Technology Transfer Network of yet2.com Inc.
Agriculture
Biological Sciences
Preferable Regions
North America
South America
Europe
Asia
Africa
Australia
Practical Experience
Ion-exchange substrate TRIONA® has proved to be a promising nutrient medium for the daptation and propagation of healthy plants in vitro. Substrate Triona® has been tested in China, Russia, in RUE "NPC NAS of Belarus on potato growing and fruit and vegetable growing" and has shown excellent results in the cultivation of various types of ornamental and medicinal plants, potatoes, grapes, Karelian birch, vegetables, grapes, rhododendrons, and other microclonally derived plant species.[br][/br][br][/br]Booklet of the offer in English - [url]http://ictt.by/Docs/tp/off/2453/TRIONA__EN.jpg[/url][br][/br][br][/br]Booklet of the offer in Russian - [url]http://ictt.by/Docs/tp/off/2453/TRIONA__RU.jpg[/url][br][/br][br][/br]Booklet of the offer in Chinese - [url]http://ictt.by/Docs/tp/off/2453/TRIONA__ZH.jpg[/url]
Type of Collaboration Sought
R&D Contract
Joint Venture
License
For Sale
Available Technical Assistance
Documentation
Personnel
Link to this profile:
http://ictt.by/ShowRequests/ShowTitlesOffCat.aspx?loc=1&ru=0&id=2454
Respond to this Technology Offer (Preferably in English)
©
National Academy of Sciences of Belarus, Innovation Association "Republican Centre for Technology Transfer"