Knowde Enhanced TDS
Identification & Functionality
- Agrochemical Functions
- Technologies
Features & Benefits
- Labeling Claims
- Agrochemicals Features
- Features
- AKER® production does not foresee any form of high-temperature exsiccation (usage of ovens or insufflation of hot air) and it causes the close union between organic matrix and mineral matrixes. This process is the result of an accurate union and following reaction between the different components, without the use of preservatives nor binders.
- The organic matrix equivalent to 50% performs both the role of nutrient for the crops (mainly as a source of organic nitrogen and microelements) and of protection of the mineral matrixes it is mixed with. Indeed, it allows the formation of compounds with mineral nutritive elements, which reduce the possibility of insolubility reactions in the soil. Furthermore, the product is slowly absorbed by the plants, thanks to the processes of mineralization which take place with a certain graduality.
- The components of the product permit an immediate action from the fraction of ureic and ammoniacal nitrogen, and a higher persistence over time from organic nitrogen. Potassium included in the formula comes all from sulfate.
Applications & Uses
- Markets
- Applications
- AKER® Usage
- It is a fertilizer specific for the fertilization of grapevine, fruit-bearing crops, citrus fruits and actinidia during the production phase, thanks to the targeted NPK relation.
- Straggling spreading distribution can take place on all surface or under the foliage of each plant, in the case of sloping soils or where the arboretum does not follow pre-established rows.
- For its maximum performance, it is recommended to slightly bury the product or to mow the lawn.
- Open field spreading must take place at a minimum depth of 2 cm and a maximum of 15 cm; the usage on arboreal crops must foresee a distance from the trunk of 18/20 cm and a depth of 10/15 cm.
- Average doses recommended for crop nutrition
Crop Period Doses Instructions Grapevine Spring 500-600 kg/ha in open field Bury or mow the lawn Apple tree, Pear tree, Peach tree At the end of winter-beginning of spring 500-700 kg/ha If possible, bury, irrigate or mow the lawn Actinidia At the end of winter-beginning of spring 700-800 kg/ha in open field If possible, bury, irrigate or mow the lawn Orange, Clementina, Lemon At the end of winter-beginning of spring 600-700 kg/ha in open field If possible, slightly bury Vegetable garden Before seeding transplant 500-600 kg/ha in open field or on a 50/60 cm line Bury and irrigate Hedges and boarders Autumn or at the end of winter 500-700 g/linear meter Bury or slightly irrigate Flowerbeds, lawns Spring 150-300 g/m2 Flowerbeds= bury and irrigate Lawns= roll The crops indicated are representative of each category; AKER® it can be used for numerous other types by employing the same method.
Properties
- Typical Properties
| Value | Units | Test Method / Conditions | |
| Total Nitrogen | 9 | % | — |
| Organic Nitrogen | 3 | % | — |
| Ureic Nitrogen | 1.5 | % | — |
| Ammoniacal Nitrogen | 4.5 | % | — |
| Total Phosphorus Pentoxide | 5 | % | — |
| Phosphorus Pentoxide (Soluble In Water) | 3 | % | — |
| Phosphorus Pentoxide (Soluble In Neutral Ammonium Citrate And Water) | 4 | % | — |
| Potassium Oxide (Soluble In Water) | 13 | % | — |
| Sulphur Trioxide (Soluble In Water) | 16 | % | — |
| Organic Carbon | 10 | % | — |
| Fulvic Acids | 4 | % | — |
| Humic Acids | 5 | % | — |
| Humification Degree | 24 | % | — |
| Humification Rate | 14 | % | — |
| Total Aerobic Bacteria Load | 1.080.000.000 | UFC/g | — |
| Carica Batterica Anaerobica Totale | 850.000.000 | UFC/g | — |
| Humidity | 12 - 14 | % | — |
| Specific Weight | 1.0 - 1.1 | kg/l | — |
| pH (Indicative) | 7 - 8 | — | — |
Packaging & Availability
- Packaging Type
- Packaging
- Bag kg 25 on kg 1500 pallet
- Big bags kg 500
- Bulk