The present invention aims to provide a microcapsule composition that enables reduction or prevention of injury of useful plants caused by pyroxasulfone, a production method therefor, an agrochemical formulation containing the same, and a weed control method. A method of producing a microcapsule composition containing pyroxasulfone encapsulated therein, the method including: an emulsifying dispersion step of performing high-speed stirring of pyroxasulfone crystal particles, isocyanate, oily phase, and aqueous phase at a peripheral speed of 6.000 to 30,000 mm/s to allow emulsifying dispersion of the oily phase in the aqueous phase, to form emulsion particles of the oily phase; and a film formation step of forming a film on at least the surface of the emulsion particles of the oily phase formed by the emulsifying dispersion step; and the like are provided.

A method including: recording a first image of a first field region; automatically treating a plant within the first region in-situ based on the first image; automatically verifying the plant treatment with a second image of the first region; and automatically treating a second region concurrently with treatment verification.

A method including: recording a first image of a first field region; automatically treating a plant within the first region in-situ based on the first image; automatically verifying the plant treatment with a second image of the first region; and automatically treating a second region concurrently with treatment verification.

An apparatus and the associated method which includes means for controlling an invasive organism. The means including a trolling apparatus, for attachment to an associated vehicle. The trolling apparatus is pulled through a body of water in response to movement of the associated vehicle. The housing carries a plurality of UV-C light sources for producing UV-C light at a wavelength of substantially 254 nm, whereby invasive organisms proximate to light emanating from at least one of said UV-C light source whereby invasive organisms are exposed to UV-C light at a wavelength of substantially 254 nm resulting in controlling an invasive organism. Other embodiments, attract organisms such as mosquitos and then expose them to UV-C light. The invention facilitates reduced use of herbicide.

In order to improve weed management in a plantation field, a method for weed management is provided. The method may comprise collecting image data of the plantation field after being applied with a primary weed control technique, recognizing items indicative an occurrence of a weed in the collected image data, generating a weed pressure map indicative of a weed pressure in the plantation field based on the recognized items, determining one or a plurality of target areas for weed management in the generated weed pressure map, if the weed pressure of the one or the plurality of target areas extends a predetermined threshold and outputting a treatment control signal indicative of the one or the plurality of determined target areas, which when transmitted causes an activation of at least one weed treatment device to apply at least one secondary weed control technique to the one or the plurality of determined target areas, wherein the at least one secondary weed control technique is different from the primary weed control technique.

The invention relates to a collaborative agricultural field processing control device intended to be mounted on an agricultural machine (1), composed of a set of detectors (2) for weeds or leaf symptoms of deficiencies or diseases collaborating in the decision to control the treatment devices (3) of the agricultural field.

Plant eradication and stressing of plants using illumination signaling where a short-time dual component, low energy, unnatural set of irradiances is applied, with no mutagenic or high radiative energy transfers in any wavelength for eradication by substantial high temperature thermally-induced leaf and plant component failure or incineration. An Indigo Region Illumination Distribution of wavelength 300 nm to 550 nm is directed to plant foliage and/or a plant root crown, while infrared radiation that is substantially Medium Wavelength Infrared radiation of 2-20 microns wavelength, 2.4-8.0 microns preferred, is directed to a plant root crown and/or soil immediately adjacent the root crown. The Indigo Region Illumination Distribution can pass through the MWIR emitter to form a compact illuminator. The MWIR emitter can comprise borosilicate glass at 400° F. to 1000° F.

Plant eradication and stressing of plants using illumination signaling where a short-time dual component, low energy, unnatural set of irradiances is applied, with no mutagenic or high radiative energy transfers in any wavelength for eradication by substantial high temperature thermally-induced leaf and plant component failure or incineration. An Indigo Region Illumination Distribution of wavelength 300 nm to 550 nm is directed to plant foliage and/or a plant root crown, while infrared radiation that is substantially Medium Wavelength Infrared radiation of 2-20 microns wavelength, 2.4-8.0 microns preferred, is directed to a plant root crown and/or soil immediately adjacent the root crown. The Indigo Region Illumination Distribution can pass through the MWIR emitter to form a compact illuminator. The MWIR emitter can comprise borosilicate glass at 400° F. to 1000° F.

An apparatus for solarization of a volume of soil includes a support structure in the form of a frame having a first opening extending therethrough. The apparatus comprises a lid positionable over the frame, a plurality of walls extending under and away from the frame, and an assembly that redirects solar energy attached over the support structure. The lid and walls form a second opening. During operation the support structure is placed on a section of ground and adjusted for solar energy to be directed toward and through the lid. When placed on the ground, the frame, the lid, the walls and the adjoining ground form an enclosed volume that prevents thermal energy from escaping the enclosed volume while directing the solar energy into the volume via the second opening to heat underlying soil.

Various embodiments of an apparatus, methods, systems and computer program products described herein are directed to an agricultural observation and treatment system and method of operation. The agricultural treatment system determines a vehicle pose of a vehicle as the vehicle moves along a path. The system identifies a first target agricultural object for treatment. Based on the determined vehicle pose, the system positions a treatment head of a first treatment unit such that a first projectile fluid may be emitted by the first treatment unit at the identified first target agricultural object. The system then causes an emitter to emit a fluid from the treatment head at the first target agricultural object.