The invention relates to a method of impacting the fruit production of a plant or crop by applying short-duration thermal shock streams of hot air to the plant periodically to impact the flavonoid biosynthetic pathway mechanisms in a plant thereby improving its fruit. The method includes the steps of (1) passing by the plant in a row at a speed in an improved Thermal Plant Treatment (TPT) machine, (2) ejecting from the TPT machine at least one hot stream of air in the direction of the unit plant area, (3) optionally measuring the thermal shock profile that the plant is subjected with thermal sensors, and (4) repeating the thermal shock profile treatment steps (1) and (2) at pre-determined regular intervals over at least a fraction of the crop year.

The invention relates to a method of impacting the fruit production of a plant or crop by applying short-duration thermal shock streams of hot air to the plant periodically to impact the flavonoid biosynthetic pathway mechanisms in a plant thereby improving its fruit. The method includes the steps of (1) passing by the plant in a row at a speed in an improved Thermal Plant Treatment (TPT) machine, (2) ejecting from the TPT machine at least one hot stream of air in the direction of the unit plant area, (3) optionally measuring the thermal shock profile that the plant is subjected with thermal sensors, and (4) repeating the thermal shock profile treatment steps (1) and (2) at pre-determined regular intervals over at least a fraction of the crop year.

Systems and methods for controlling and monitoring agricultural equipment. The system includes a monitoring module that communicates with a remote user device to remotely turn a wind machine on or off.

A canopy treatment system to treat plants is disclosed. In one implementation according to examples of the present disclosure, a canopy treatment system comprises a hot fluid generating system configured to heat a fluid, the hot fluid generating system including a canopy valve; and a canopy in fluid communication with the hot fluid generating system, the canopy defining a treatment region, the canopy valve of the hot fluid generating system selectively positionable to control fluid flow between the hot fluid generating system and the canopy.

A controller for an air supplier of an assembly line grow pod is provided. The controller identifies a plant on one or more carts; determines an airflow rate based on an airflow recipe for the identified plant; controls an air supplier to output air through one or more outlet vents at the airflow rate; obtains an image of the plant; identifies a type of contaminants deposited directly on the plant based on the obtained image; and adjusts a power of the air output from the air supplier to remove the contaminants from the plant by the air based on the identified type of contaminants deposited directly on the plant.

A controller for an air supplier of an assembly line grow pod is provided. The controller identifies a plant on one or more carts; determines an airflow rate based on an airflow recipe for the identified plant; controls an air supplier to output air through one or more outlet vents at the airflow rate; obtains an image of the plant; identifies a type of contaminants deposited directly on the plant based on the obtained image; and adjusts a power of the air output from the air supplier to remove the contaminants from the plant by the air based on the identified type of contaminants deposited directly on the plant.

An ultraviolet radiation blocking sheet for blocking ultraviolet radiation while allowing passage of visible light includes a film that is substantially transparent to light that has a wavelength of 495 to 570 nanometers. The film also is substantially absorbent of light that has a wavelength shorter than 495 nanometers. The film is configured to position between a light source and an object to be protected from ultraviolet radiation. The film absorbs the ultraviolet radiation emitted from the light source while allowing light that has a wavelength of 495 to 570 nanometers to pass through the film to illuminate the object.

A device is described for preventing damage to crops by means of heated ambient air, the device comprising gas reservoirs a gas burner, a centrifugal fan and a heating device. The heating device branches off a part of the flow of the heated ambient air to an outlet of the centrifugal fan and allows it to flow to the bottom side of the at least one gas reservoir.

A device is described for preventing damage to crops by means of heated ambient air, the device comprising gas reservoirs a gas burner, a centrifugal fan and a heating device. The heating device branches off a part of the flow of the heated ambient air to an outlet of the centrifugal fan and allows it to flow to the bottom side of the at least one gas reservoir.

A mobile trellis may be expandable and/or may include reusable components (i.e., components that are used with a second plant following use of the mobile trellis/component with a first plant). A mobile trellis may be incorporated into a horticultural environment. An expandable mobile trellis may include modular components. A mobile trellis may create a microclimate for an associated plant. A mobile trellis may anticipate changes in an associated horticultural environment based upon an event (e.g., a door opening, a component failure, etc.) and/or the mobile trellis may preemptively alter an “input” to, and/or an “output” from, a horticultural environment based on anticipating a change in the horticultural environment.