Knowde Enhanced TDS
Identification & Functionality
- Chemical Family
- Chemical Name
- Agrochemical Functions
- CAS No.
- 7775-09-9
- EC No.
- 231-887-4
- Technologies
Features & Benefits
- Agrochemicals Features
- Performance
Feeding beetroots with the Mag-Sod Beetroot is the best method of providing all varieties of beetroots with magnesium, sodium and sulfur – nutrients necessary for correct growth, yields and technological quality.
- Sulfur and Its Significance
- conditions the correct utilization of nitrogen fertilizers and nitrogen transformation in the plant
- increased immunity to diseases and vermin
- constitutes an important building block for protein amino acids
- takes part in carbohydrate and fat formation processes
- participates in photosynthesis, chlorophyll synthesis and many other structural compounds.
Applications & Uses
- Markets
- Applications
- Applicable Crop
- Application Technique
- Application
Mag-Sod Beetroot can be used as a single fertilizer solution or together with urea, foliar fertilizers and adequate pesticides (in the lower recommended dose). For even better results it is recommended to use Mag-Sod Beetroot in a form of water solution together with adequate foliar fertilizers, i.e.:
ActiPlon Beetroot – crystalline fertilizers with microelements
Actipol – chelated microelements of: iron, manganese, zinc, copper, molybdenum and cobalt
ActiBor – liquid fertilizer with boron
Super ActiBor – crystalline fertilizer with boron
ActiCal – liquid calcium chelate
When Mag-Sod Beetroot dissolves, it raises the temperature of the solution, what has a beneficial effect on the results of spraying.
Preparation of a working solution: Continuously mixing, in a spray tank, half filled with water, dissolve consecutively: Mag-Sod Beetroot (add slowly), urea, microelements fertilizers and pesticide. The prepared solution should be used within few hours from its preparation. It is recommended to dose Mag-Sod Beetroot according to information presented in the table. Other components of the working solution should be dosed in accordance with the recommendations of the manufacturers in the lower recommended dose.
- Recommendations For Use
Crops Fertilizer application periods Dose [kg/ha] Working solution [l/ha]
Beetroots 1 – 4-8 fully developed leaves phase
2 – 9 and more fully developed leaves phase
3 – growth of leaf rosette
(before covering the spacing) last treatment to be done no later than at the end of July
9-10 200-300
Properties
- Typical Properties
| Value | Units | Test Method / Conditions | |
| Manganese (Mn) | 0.1 | % | — |
| Zinc (Zn) | 0.14 | % | — |
| Magnesium oxide (mgo) | 16 | % | — |
| Sodium oxide (Na2O) | 13.1 | % | — |
| Sulfur trioxide (SO3) | 49.1 | % | — |
Technical Details & Test Data
- Magnesium and Its Significance
- basic building block of chlorophyll – plays a key role in the photosynthesis process
- indispensable for synthesis, transport and storage of stock substances
- activates the operation of a number of enzymes
- participates in the plant’s energy processes as a connector of the enzyme with the energy carrier (ATP)
- helps to keep the right structure of ribosomes
- controls the hydration of biocolloids, thus influencing the plant’s water management
- strengthens the plant’s resistance to diseases.
- Sodium and Its Significance
- allows for high yields and good quality, even in moisture-rich areas
- in sugar beets, enhances formation of fructose and its conversion into glucose stored in the root
- due to an osmotic effect, sodium ion can replace potassium, an essential element for cell growth and water management
- enhances CO2 absorption from the air at the low concentration.