Described herein are implements, systems, and methods for applying stress to agricultural plants of agricultural fields. In one embodiment, an agricultural implement comprises a frame transverse to a direction of travel of the agricultural implement and a stress mechanism disposed on the frame in operation such that the stress mechanism applies a force to the row of plants as the agricultural implement moves through the field.

Described herein are implements, systems, and methods for applying stress to agricultural plants of agricultural fields. In one embodiment, an agricultural implement comprises a frame transverse to a direction of travel of the agricultural implement and a stress mechanism disposed on the frame in operation such that the stress mechanism applies a force to the row of plants as the agricultural implement moves through the field.

A soil cultivator comprises a frame attachable to a tractor and at least one processing unit attached to the frame. The processing unit has a frame-like element, a first soil cultivation tool attached to the frame-like element via a first connecting element, a second soil cultivation tool attached to the frame-like element via a second connecting element, and a swiveling axis element. The first soil cultivation tool and the second soil cultivation tool are arranged on different sides of the swiveling axis element. The first connecting element has a first annular section, and the second connecting element has a second annular section. The first and the second connecting elements are arranged so that they can swivel around the swiveling axis element such that a change in the extent of the frame-like element can effect a change in the distance between the first and the second soil cultivation tools.

A soil cultivator comprises a frame attachable to a tractor and at least one processing unit attached to the frame. The processing unit has a frame-like element, a first soil cultivation tool attached to the frame-like element via a first connecting element, a second soil cultivation tool attached to the frame-like element via a second connecting element, and a swiveling axis element. The first soil cultivation tool and the second soil cultivation tool are arranged on different sides of the swiveling axis element. The first connecting element has a first annular section, and the second connecting element has a second annular section. The first and the second connecting elements are arranged so that they can swivel around the swiveling axis element such that a change in the extent of the frame-like element can effect a change in the distance between the first and the second soil cultivation tools.

A system for controlling the operation of a row cleaning device of a seed-planting implement may include a row cleaning device, at least one row sensor, and a controller. The row cleaning device may move field materials away from a travel path of a component of a seed-planting implement, where the component is positioned aft of the row cleaning device along a direction of travel of the seed-planting implement. The at least one row sensor may generate data indicative of a composition of the field materials moved by the row cleaning device. The controller may be configured to receive the data from the at least one row sensor as the seed planting implement moves across the field, and to monitor the composition of the field materials moved by the row cleaning device based at least in part on the data received from the at least one row sensor.

A system for controlling the operation of a row cleaning device of a seed-planting implement may include a row cleaning device, at least one row sensor, and a controller. The row cleaning device may move field materials away from a travel path of a component of a seed-planting implement, where the component is positioned aft of the row cleaning device along a direction of travel of the seed-planting implement. The at least one row sensor may generate data indicative of a composition of the field materials moved by the row cleaning device. The controller may be configured to receive the data from the at least one row sensor as the seed planting implement moves across the field, and to monitor the composition of the field materials moved by the row cleaning device based at least in part on the data received from the at least one row sensor.

In one aspect, a system for controlling an operation of a tillage implement being towed across a field by a work vehicle may include a tillage tool configured to engage soil and crop material present within a field as the tillage implement is being towed across the field by the work vehicle. Furthermore, the system may include a controller configured to receive an input associated with crop material present within the field and determine a location of a crop row relative to the tillage tool based on the received input. Additionally, the controller may be configured to control a direction of travel of the tillage implement based on the determined location of the crop row.

In one aspect, a system for controlling an operation of a tillage implement being towed across a field by a work vehicle may include a tillage tool configured to engage soil and crop material present within a field as the tillage implement is being towed across the field by the work vehicle. Furthermore, the system may include a controller configured to receive an input associated with crop material present within the field and determine a location of a crop row relative to the tillage tool based on the received input. Additionally, the controller may be configured to control a direction of travel of the tillage implement based on the determined location of the crop row.

Described herein are implements, systems, and methods for applying stress to agricultural plants of agricultural fields. In one embodiment, an agricultural implement comprises a frame transverse to a direction of travel of the agricultural implement and a stress mechanism disposed on the frame in operation such that the stress mechanism applies a force to the row of plants as the agricultural implement moves through the field.

Described herein are implements, systems, and methods for applying stress to agricultural plants of agricultural fields. In one embodiment, an agricultural implement comprises a frame transverse to a direction of travel of the agricultural implement and a stress mechanism disposed on the frame in operation such that the stress mechanism applies a force to the row of plants as the agricultural implement moves through the field.