A protector device includes a plurality of pairs of multi-pronged elements. Each pair of multi-pronged elements includes a first multi-pronged element having a first C-shaped element that has a first straight section, a first end forming a first end spike, and a second end forming a second end spike, and a first connecting element attached to and perpendicular to the first C-shaped element. Each pair of multi-pronged elements also includes a second multi-pronged element including a second C-shaped element connected to the first connecting element of the first multi-pronged element, the second C-shape element having a second straight section, a third end forming a third end spike, and a fourth end forming a fourth end spike, and a second connecting element attached to and perpendicular to the second C-shaped element.

A clamp arrangement for tree trunks with a main body on which at least three retaining tongues are formed, arranged at a distance from one another, wherein the main body and the retaining tongues are oriented, as blades, in a common cutting direction, and wherein at least two snap lugs are formed on the main body and/or on at least one retaining tongue to allow a detachable connection with a setting tool.

A clamp arrangement for tree trunks with a main body on which at least three retaining tongues are formed, arranged at a distance from one another, wherein the main body and the retaining tongues are oriented, as blades, in a common cutting direction, and wherein at least two snap lugs are formed on the main body and/or on at least one retaining tongue to allow a detachable connection with a setting tool.

A dormancy control system for use with plants such as fruit trees, nut trees, and perennial berry bushes planted in commercial settings. The dormancy control system employs vertical shade structures to control the dormancy of plants such as fruit trees, nut trees, and perennial berry bush crops. The dormancy control system results in dramatic increases in crop yield, and may be coupled with orchard planting directional orientation, evaporative cooling systems, and chemical and hormone based spray applications

A dormancy control system for use with plants such as fruit trees, nut trees, and perennial berry bushes planted in commercial settings. The dormancy control system employs vertical shade structures to control the dormancy of plants such as fruit trees, nut trees, and perennial berry bush crops. The dormancy control system results in dramatic increases in crop yield, and may be coupled with orchard planting directional orientation, evaporative cooling systems, and chemical and hormone based spray applications

An adjustable twig bender is made of a metal wire. The adjustable twig bender includes two hooking sections extending from two ends of a bridging section. The hooking sections substantially extend in a same direction. In use, the hooking sections are engaged with two portions of a twig and the bridging section is wound around the twig.

An adjustable twig bender is made of a metal wire. The adjustable twig bender includes two hooking sections extending from two ends of a bridging section. The hooking sections substantially extend in a same direction. In use, the hooking sections are engaged with two portions of a twig and the bridging section is wound around the twig.

The present invention relates to methods for controlling or preventing infestation of soybean by phytopathogenic microorganisms, in particular of the Fusarium genus, Sclerotinia sclerotiorum, Microsphaera diffusa, Septoria glycines and Cercospora sojina, more particularly Fusarium virguliforme, Fusarium solani, Fusarium oxysporum, Fusarium acuminatum, Fusarium chlamydosporum, Fusarium compactum, Fusarium culmorum, Fusarium equiseti, Fusarium graminearum, Fusarium merismoides, Fusarium proliferatum, Fusarium pseudograminearum, Fusarium semitectum, Fusarium subglutinans and Fusarium verticilliodes, comprising applying to a crop of plants, the locus thereof, or propagation material thereof, a compound according to formula (I), wherein R1, R2, R3, R4, R5, Y, A, B are as defined herein.

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A system for autonomous crop monitoring includes a mobile platform configured to autonomously propel the system to a plurality of locations in a field of the crop and an imaging device. A leaf bending mechanism is configured to bend leaves of a crop plant in the field when an image of the crop plant is being acquired by the imaging device.

A system for autonomous crop monitoring includes a mobile platform configured to autonomously propel the system to a plurality of locations in a field of the crop and an imaging device. A leaf bending mechanism is configured to bend leaves of a crop plant in the field when an image of the crop plant is being acquired by the imaging device.