An apparatus for planting rhizomes includes a chassis having wheels to move in a primary direction over an area in which rhizomes are to be planted, the primary direction defining a forward and aft sense, a hopper on the chassis holds rhizomes to be planted, the hopper having a live bottom mounted to move rhizomes in the forward direction, a kickback bar at a forward side of the hopper lifts rhizomes at a forward face of the hopper, a leveling roller above the live bottom levels the height of rhizomes transported by the live bottom forward of the hopper, a barrel feed at a forward end of the live bottom to pull rhizomes from the live bottom, a accumulator below the barrel feed, a drop zone below the accumulator, and a chute with inner flaps from the drop zone oriented to deposit rhizomes in a furrow.

An apparatus for planting rhizomes includes a chassis having wheels to move in a primary direction over an area in which rhizomes are to be planted, the primary direction defining a forward and aft sense, a hopper on the chassis holds rhizomes to be planted, the hopper having a live bottom mounted to move rhizomes in the forward direction, a kickback bar at a forward side of the hopper lifts rhizomes at a forward face of the hopper, a leveling roller above the live bottom levels the height of rhizomes transported by the live bottom forward of the hopper, a barrel feed at a forward end of the live bottom to pull rhizomes from the live bottom, a accumulator below the barrel feed, a drop zone below the accumulator, and a chute with inner flaps from the drop zone oriented to deposit rhizomes in a furrow.

A system for planting cover crop seeds in fields with standing row crops, including a high-clearance agricultural vehicle with a high-clearance toolbar, soil sealers, and a seeder with a reciprocator above the soil sealers to deliver various types of seeds onto the disrupted soil after which the soil sealers cover the seeds with soil.

A system for planting cover crop seeds in fields with standing row crops, including a high-clearance agricultural vehicle with a high-clearance toolbar, soil sealers, and a seeder with a reciprocator above the soil sealers to deliver various types of seeds onto the disrupted soil after which the soil sealers cover the seeds with soil.

Described herein is a farm management system and related apparatus and operations including providing environmental monitoring and control systems, tracking seed sources, managing cultivation, growth, and harvest, improving enclosure operations, and managing system data. Example farm management systems may include a physical growing unit, a capacity control circuit structured to interpret a growing capacity description, and a growth support circuit structured to determine a planting instruction value in response to the growing capacity description. The physical growing unit may be responsive to the planting instruction value to initiate a growing support operation.

Described herein is a farm management system and related apparatus and operations including providing environmental monitoring and control systems, tracking seed sources, managing cultivation, growth, and harvest, improving enclosure operations, and managing system data. Example farm management systems may include a physical growing unit, a capacity control circuit structured to interpret a growing capacity description, and a growth support circuit structured to determine a planting instruction value in response to the growing capacity description. The physical growing unit may be responsive to the planting instruction value to initiate a growing support operation.

Work vehicle display systems and methods for generating map displays including automatic section control (ASC) lookahead symbology are disclosed. In embodiments, the work vehicle display system includes a display device on which a map display is generated, a position tracking data source, and a controller architecture. The controller architecture is operable in an ASC lookahead mode in which the controller architecture: (i) projects a future position of the work implement at a future timepoint based, at least in part, on data received from the position tracking data source; (ii) projects future operative states of the implement sections at the future timepoint when the implement sections are controlled by an ASC system; and (iii) generates ASC lookahead symbology on the map display visually indicating the projected future position of the work implement and the projected future operative states of the implement sections.

Work vehicle display systems and methods for generating map displays including automatic section control (ASC) lookahead symbology are disclosed. In embodiments, the work vehicle display system includes a display device on which a map display is generated, a position tracking data source, and a controller architecture. The controller architecture is operable in an ASC lookahead mode in which the controller architecture: (i) projects a future position of the work implement at a future timepoint based, at least in part, on data received from the position tracking data source; (ii) projects future operative states of the implement sections at the future timepoint when the implement sections are controlled by an ASC system; and (iii) generates ASC lookahead symbology on the map display visually indicating the projected future position of the work implement and the projected future operative states of the implement sections.

An agricultural machine for the combined application of seed and granulate on an agricultural area includes a separating device, a portioning device, and a control device. The separating device has a rotationally drivable separating element for separating seed grains and the portioning device has a rotationally drivable portioning element for producing granulate portions. The control device matches the rotational movements of the separating element and the portioning element to each other to implement a predetermined depositing relationship of the seed grains and the granulate portions on the agricultural area.

An agricultural machine for the combined application of seed and granulate on an agricultural area includes a separating device, a portioning device, and a control device. The separating device has a rotationally drivable separating element for separating seed grains and the portioning device has a rotationally drivable portioning element for producing granulate portions. The control device matches the rotational movements of the separating element and the portioning element to each other to implement a predetermined depositing relationship of the seed grains and the granulate portions on the agricultural area.