Disclosed is a swing pipe system for manure applications. In one embodiment the swing pipe system includes a main pipe configured to receive manure from a swivel, a support member at a first end of the main pipe configured to support the first end of the main pipe, and a tool bar configured to support a second end of the main pipe, the second end of the main pipe being pivotally supported to allow the main pipe to pivot about a horizontal axis and a vertical axis.

Disclosed is a swing pipe system for manure applications. In one embodiment the swing pipe system includes a main pipe configured to receive manure from a swivel, a support member at a first end of the main pipe configured to support the first end of the main pipe, and a tool bar configured to support a second end of the main pipe, the second end of the main pipe being pivotally supported to allow the main pipe to pivot about a horizontal axis and a vertical axis.

A system for dispensing multiple low rate agricultural products that includes a multiple low rate agricultural (MLRA) product application device configured to cooperate with a planting equipment monitor assembly positioned to sense a seed being discharged from high speed planting equipment. Each MLRA product application device comprises a common housing for a number of low rate agricultural product input assemblies.

A system for dispensing multiple low rate agricultural products that includes a multiple low rate agricultural (MLRA) product application device configured to cooperate with a planting equipment monitor assembly positioned to sense a seed being discharged from high speed planting equipment. Each MLRA product application device comprises a common housing for a number of low rate agricultural product input assemblies.

A device for protecting crop plants (P) and/or sown seeds (S) against unwanted plants is provided to avoid the use of chemical weed control agents or herbicides. The device includes a ribbon or lace-shaped structure on which a plurality of annular elements are arranged at a distance from one another, in which the structure is designed to be applied to a cultivated surface (F) such that each element encloses the location (O) of a crop plant (P) or sown seed (S), and wherein each element includes a detectable means for marking the location concerned (O1, O2, . . . On) for detection by a machine for controlling mechanical weed control mechanisms. The device is thus an auxiliary or marking means which can be easily applied on the cultivated surface along the row of plants or seeds and allows reliable detection by machine of the locations of plants or seeds, zones to be protected.

An autonomous vehicle platform and system for selectively performing an in-season management task in an agricultural field while self-navigating between rows of planted crops, the autonomous vehicle platform having a vehicle base with a width so dimensioned as to be insertable through the space between two rows of planted crops, the vehicle base having an in-season task management structure configured to perform various tasks, including selectively applying fertilizer, mapping growth zones and seeding cover crop within an agricultural field.

The invention relates to use of alkanolamine salts of phosphoric acid as an ammonium-free fertilizer. The invention also discloses aqueous compositions, comprising an alkanolamine salt of phosphoric acid and at least an alkanolamine metal complex.

This emitter has an emitter body, a film, and a cover. A sealed space is formed between the cover and a portion of the film. A flow channel in the emitter include: a first through-hole that is opened in a first surface and a second surface of the emitter body; and a second through-hole that is disposed downstream of the first through-hole. The film is disposed so as to block first surface-side openings of the first through-hole and the second through-hole. The film becomes distorted toward the side of the sealed space due to deformation caused in the film when the temperature of the film exceeds a preset value and when the pressure of irrigation liquid circulating within the flow channel exceeds a preset value, thereby creating a gap between the emitter body and the film, through which the first through-hole and the second through-hole are enabled to be connected.

This emitter has an emitter body, a film, and a cover. A sealed space is formed between the cover and a portion of the film. A flow channel in the emitter include: a first through-hole that is opened in a first surface and a second surface of the emitter body; and a second through-hole that is disposed downstream of the first through-hole. The film is disposed so as to block first surface-side openings of the first through-hole and the second through-hole. The film becomes distorted toward the side of the sealed space due to deformation caused in the film when the temperature of the film exceeds a preset value and when the pressure of irrigation liquid circulating within the flow channel exceeds a preset value, thereby creating a gap between the emitter body and the film, through which the first through-hole and the second through-hole are enabled to be connected.

A method may include collecting a sample of soil via a soil collection unit. Additionally, the method may include mixing the soil with a liquid to form a colorless solution. Further, the method may include dividing the colorless solution into one or more sub-samples and adding a specific reagent to each sub-sample. Additionally, the method may include analyzing each sub-sample to determine a nutrient value via a soil analysis unit in real-time.