In agricultural practice, the nutrients required by plants are rarely available in the soil in the optimum form and quantity. Targeted fertilizer applications (liquid fertilizer) can achieve faster growth, higher yields and improved quality.
Liquid fertilization is a method in which nutrients are delivered in liquid form directly to the plant roots or leaves. This technique offers numerous advantages over conventional fertilization methods (such as solid fertilizers) and is therefore becoming increasingly important in modern agriculture.
An application map is used to divide agricultural fields into different cultivation zones according to the needs of the soil and the plant. The application map is based on nutrient, management zone or yield maps. The nutrient map, which is created from the results of the soil analysis, reflects the current status of the soil. The content classes and the pH value provide information on whether top-up fertilization is necessary or whether maintenance fertilization is sufficient.
In indirect site-specific management, the application maps are created on the PC. Various software solutions are available for this purpose. Most of these programs use satellite images to assess the vegetation in the fields and divide it into zones.
The application maps created are then transferred to the tractor terminal. The tractor must be equipped with a steering system so that the current position of the tractor is known and the target application rate can be read from the application map. The application rate calculated by the terminal is transmitted to the implement via the ISOBUS interface. ISOBUS equipment is therefore required on both the tractor and the implement side.
Special software apps for site-specific management offer an alternative for working with older technology on a site-specific basis. The application map is sent to the app, which is installed on a smartphone or tablet. The smartphone/tablet is taken onto the vehicle for work, whereby the app determines and displays the target application rate depending on the current position in the field. By varying the driving speed the application rate can be adjusted to the target value.
VR nozzles are predestined for site-specific fertilization, so that N-stabilized liquid fertilizer can also be used well. The VR nozzle is based on the design of the FD nozzle. In addition to the advantages of the FD nozzle, the VR nozzle impresses with its variable flow rate, which covers up to five ISO FD nozzle sizes. This enables a higher area coverage without changing nozzles. Flexible application with changing forward speeds and precision farming applications is guaranteed. The Lechler VR nozzles VR-M and VR-L are the optimum nozzles for the following applications:
Exact, uniform and accurate to the border. Take advantage of our comprehensive range of nozzles and accessories for liquid fertilization: