Knowde Enhanced TDS
Identification & Functionality
- Chemical Family
- Agrochemical Functions
- Country of Origin
- Turkey
- Technologies
Features & Benefits
- Labeling Claims
- Agrochemicals Features
- Importance Of Amino Acids
- Every plant like any organism needs certain components for growth over and above soil, sun, rain and air. The basic component of living cells is Proteins, with building block material, Amino Acids. Proteins are formed by sequence of Amino Acids.
- Plants synthesize Amino Acids from the Primary elements, the Carbon and Oxygen obtained from air, Hydrogen from water in the soil, forming Carbon Hydrate by means of photosynthesis and combining it with the Nitrogen which the plants obtain from the soil, leading to synthesis of amino acids, by collateral metabolic pathways. Only L-Amino Acids are part of these Proteins and have metabolic activity.
- The requirement of amino acids in essential quantities is well known as a means to increase yield and overall quality of crops.
- The application of amino acids for foliar use is based on its requirement by plants in general and at critical stages of growth in particular. Plants absorb Amino Acids through Stomas and are proportionate to environment temperature.
- Amino Acids are fundamental ingredients in the process of Protein Synthesis. About 20 important Amino Acids are involved in the process of each function. Studies have proved that Amino Acids can directly or indirectly influence the physiological activities of the plant.
- Amino Acids are also supplied to plant by incorporating them into the soil. It helps in improving the microflora of the soil thereby facilitating the assimilation of nutrients.
- Foliar Nutrition in the form of Protein Hydrolysate (Known as Amino Acids Liquid) and foliar spray provide readymade building blocks for Protein synthesis.
Applications & Uses
- Markets
- Applications
- Applicable Crop
- Application Technique
- How To Use
Product is be liquid and consantre a form. Use can mix with water for spray type is shoot on plants or use can by irrigation system on soil.
How much and when use ,
PLANTS APPLICATION RATE
In All Crops 25-30 L/ha divided into 2-3 doses (5-10 L/ha)
Vegetables in green houses (tomatoes, bell peppers, eggplants. cucumbers, zucchini) 35-45 L/ha divided into 2-3 doses (5-10 L/ha)
Horticultural trees (kiwi, citrus groves, banana, wine grapes stone fruit) 35-45 L/ha divided into 2-3 doses (5-10 L/ha)
Open field vegetables 25-30 L/ha divided into 2-3 dosess (5-10 L/ha)
Cereals (wheat, rye, barley, oat, maize, rice, etc.). potatoes, beans. peanuts 25-30 L/ha divided into 2-3 doses (5-10 L/ha)
Ornamental plants and forest nursery landscaping. turf grass (in general) 35-45 L/ha divided into 2-3 doses (5-10 L/ha) or 5 L/m during the preparation of substrates
Foliar application 0.700-1.5 L/1000 L water every two weeks
Seed treatment 5 L/100 Kg seeds
Properties
- Physical Form
- Specifications
- Heavy Metals
| Value | Units | Test Method / Conditions | |
| pH | 8 - 10 | — | 4200 |
| Organic Matter | 20.0 | % | Dry Firing |
| Total Organic Carbon | 11.0 | % | Walkey-Black |
| Total Free Amino Acids | 4.0 | % | Chromatographic |
| Total Organic Nitrogen | 0.7 | % | Mitschel1,1972 |
| Total Water Soluble Potassium Oxide | 5.0 | % | Gravimetric |
| Value | Units | Test Method / Conditions | |
| Cadmium (Cd) | max. 0.08 | Mg/kg | TSE EN 13650 |
| Cobalt (Co) | max. 0.03 | Mg/kg | TSE EN 13650 |
| Nickel (Ni) | max. 0.02 | Mg/kg | TSE EN 13650 |
| Lead (Pb) | max. 0.04 | Mg/kg | TSE EN 13650 |
| Mercury (Hg) | max. 0.1 | Mg/kg | EPA 3052 |
| Chromium (Cr) | max. 0.03 | Mg/kg | TSE EN 13650 |
Technical Details & Test Data
- Identification
- Weight - 20 kg
- Dimensions - 30 × 28 × 35 cm
Packaging & Availability
- Packaging Type
- Availability
- Minimum order: 1000 Lt
- No Pallets
- 20 ‘Container = 1000 Pieces 20 Lt Drums
- 20 ‘Container = 2000 Pieces 5 Lt Drums
- 20 ‘Container = 12.000 Pieces 1 Lt Drums
- 40’ Container = 22 Pieces 1000 Lt IBC Tanks
- Max Uploads: 25.000 Kg