An ergonomic harvesting bag is provided for attachment to a user's body via an adjustable strap around the waist and/or neck. It allows the user to comfortably trim in a reclined or standing position. The advantage of using the ergonomic harvesting bag is that the user does not need to reach with their arms or body to approach the work, or perform the task of trimming over a table or receptacle, or on the lap or floor because the receptacle is attached and close to the body. The ergonomic harvesting bag includes an upper section, a lower section, an opening and a cavity within which items of interest may be inserted, the adjustable strap coupled to the upper section of the harvesting bag and a filter mechanism removably positioned within the cavity of the harvesting bag.

The invention provides methods for enhancing oil characteristics in Brassica oilseed plants by growing said plants and harvesting seed from said plants by straight cutting. The harvested seeds are useful for the production of oil with enhanced characteristics which can be used, for example, as food ingredient.

The invention provides methods for enhancing oil characteristics in Brassica oilseed plants by growing said plants and harvesting seed from said plants by straight cutting. The harvested seeds are useful for the production of oil with enhanced characteristics which can be used, for example, as food ingredient.

The present application relates to selective harvesting of agricultural objects, such as asparagus spears. One described example relates to a harvester that includes at least one set of independently controllable cutter arm assemblies that rotate about a common axis to harvest individual asparagus spears.

A method for cultivating Monarda fistulosa for production of thymoquinone includes planting seeds at rates between about 2.5 and about 5 pounds per acre, preferably about 4 pounds per acre. The heavy rate of planting produces plants bearing oil without weed contamination and reduces herbicide use due to production of natural herbicides by the monarda plants. Seeding and mowing the first season, and harvesting in seasons thereafter reduce costs. The method results in increased production of essential oils including thymoquinone and thymohydroquinone at levels up to about 40% or more of recovered oils, and which may be distilled from the plant.

A method for cultivating Monarda fistulosa for production of thymoquinone includes planting seeds at rates between about 2.5 and about 5 pounds per acre, preferably about 4 pounds per acre. The heavy rate of planting produces plants bearing oil without weed contamination and reduces herbicide use due to production of natural herbicides by the monarda plants. Seeding and mowing the first season, and harvesting in seasons thereafter reduce costs. The method results in increased production of essential oils including thymoquinone and thymohydroquinone at levels up to about 40% or more of recovered oils, and which may be distilled from the plant.

A vehicle including a body, a plurality of wheels movably coupled to the body, a guidance control system. The plurality of wheels can be configured to roll through rows between plant beds such that at least a portion of the body moves above the plant beds. The guidance control system can be configured to guide the vehicle along the rows. The guidance control system can be configured to track a different individual plant location of each individual plant of plants that are either planned for growth or growing in the plant beds. Other embodiments are provided.

A row crop header for a harvester having a subframe removably coupleable to a feeder housing of the harvester. A pivot assembly is supported by the subframe permitting first and second header sections to pivotably move between raised and lowered positions together or independently of the other. A cross-auger center suspension assembly rotateably supports one end of the first cross-auger section and one end of the second cross-auger section as the first and second header sections pivotally move between the raised and lowered positions.

A row crop header for a harvester having a subframe removably coupleable to a feeder housing of the harvester. A pivot assembly is supported by the subframe permitting first and second header sections to pivotably move between raised and lowered positions together or independently of the other. A cross-auger center suspension assembly rotateably supports one end of the first cross-auger section and one end of the second cross-auger section as the first and second header sections pivotally move between the raised and lowered positions.

A header has a cutterbar table that is movably mounted to a frame and configured to cut a standing crop, an intake auger mounted to the frame and configured to receive the cut crop; the intake auger further being configured to rotate, during a normal state, in a predetermined direction, and to rotate, during a corrective state, in a predetermined reversed direction, an actuator assembly configured to displace the cutterbar table relative to the frame, thereby changing a distance between the cutterbar table and the intake auger, a control unit configured to, upon receipt of an error signal indicative of a need to operate in the corrective state control the actuator assembly to displace the cutterbar table away from the intake auger to a safe operating position, prior to controlling the intake auger to rotate in the predetermined reversed direction.