A netting enclosure kit comprises a skeleton configured to operate in a plurality of configurations between a first, partially expanded configuration and a second, fully expanded configuration, a netting enclosure comprising a plurality of panels configured to be joined together to enclose or hang from the skeleton in each of the plurality of configurations, a first webbing configured to connect to a first portion of the netting enclosure, a second webbing configured to connect to a second portion of the netting enclosure, and a fastener configured to attached to the first webbing and to the second webbing to form an openable and closeable seam.

A shield for protecting a plant, the shield having: a shield assembly apparatus having: a top apparatus portion; a base apparatus portion having a base center tube extending upwards from a floor; an interior space formed by an association of the top apparatus portion with the base apparatus portion; support stick holes in a circular arrangement along an outer edge; grooves within the interior space; wherein each groove is supported by walls, and extends from a support stick hole to the base center tube, and is sloped such that the walls are taller when meeting the base center tube than when meeting the support stick hole; such that the shield assembly apparatus is capable of supporting frame components within the grooves; and wherein the shield is capable of shielding and protecting the plant without any portion of the shield being supported by the plant.

A tree canopy treatment system includes: a supply unit configured to heat a fluid; and a treatment unit in fluid communication with the supply unit, the treatment unit configured to move independently from the supply unit. A method of treating a tree includes positioning a temperature transmitter proximate to the tree; and lowering a treatment unit over the tree and the temperature transmitter, the treatment unit configured to move independently from a supply unit, the treatment unit in fluid communication with the supply unit.

A canopy assembly for a barrier defined by at least two sides, wherein the canopy assembly including a cover assembly; and a bracket assembly, coupled to the cover assembly, wherein the bracket assembly includes at least a first bracket for coupling the cover assembly to the first side of the barrier and at least a second bracket for coupling the cover assembly to the second side of the barrier, wherein each of the at least first and second brackets have a cavity dimensioned to receive a plurality of differently dimensioned barrier top rails or wall surfaces.

Provided is a raised-bed gardening container, including a base, a feeding tube, and a cover frame. The base may include a bottom edge; a top rim at least 36 inches above the bottom edge; an exterior sidewall extending between the bottom edge and the top rim; an interior sidewall extending from the top rim to a bottom interior, the interior sidewall and bottom interior defining an interior volume for containing a gardening media, the interior volume having a diameter of greater than approximately four feet; a feeding tube support generally centrally disposed in the base; and a gardener passage extending to the feeding tube support and having a width configured to allow a gardener to walk through the gardener passage to the feeding tube support.

A system with rotational guide rails for the protection of an orchard from weather conditions, consisting of a row of columns (1,2), so that at the top of each column (1,2) a pivoting arm (6,7) is rotationally connected by its middle. Over the pivoting arms (6,7), a rectangular cover is placed (10) in the form of a net or a foil, and through its middle section, the cover has a sliding connection to the middle cable (9) run through the columns (1,2), whereas the longer edges have a sliding connection to end cables (8). At the ends of pivoting arms (6,7), rotational guide rails (11) are placed, consisting of a stud screw (13) so that the upper end of the screw (13) is firmly tied to the cable (8), and the lower end of the screw (13) is rotationally connected to the end of a pivoting arm (6,7). The connection between the upper end of the screw (13) and the cable (8) is placed in a cylindrical casing (12) or a cap (12.a) which prevents it from coming into contact with the cover (10). Through this construction, during the rotation of pivoting arms (6,7) to one side, the cover (10) contracts into a parallelogram unobstructed, and when rotating the arms to the other side, the cover (10) stretches into a rectangular shape unobstructed.

A method and apparatus are provided that combine solar technology and agriculture in a symbiotic relationship that optimizes revenue from both sources. An array of reconfigurable solar collector assemblies is deployed in a crop field. As various crops benefit from varying degrees of shade through their development cycles, and are prone to damage from high winds and hail, the array of adaptable, reconfigurable solar collectors is deployed in the crop field and allows for the easy reconfiguration of each solar collector assembly to vary the amount of shade that is applied to the crops below the assembly, and to provide maximum hail and wind protection when necessary.

Collapsible plant dome device comprising a transparent canopy, a collapsible frame mounted on a central support member and comprising a plurality of support arms carrying the transparent canopy, a pair of diametrically opposed vent mesh openings disposed within a sidewall of the transparent canopy, a pair of diametrically opposed vent flaps each pivotally connected to a respective horizontal upper edge of each of the diametrically opposed vent mesh openings for covering and uncovering each of the diametrically opposed vent mesh openings in respective closed and open vent configurations, and at least one pair of tie down rings each interiorly mounted on a different one of a diametrically opposed pair of the plurality of support arms. In one embodiment, the device comprises a transparent skirt detachably coupled to an interior side of the transparent canopy for forming an imbricated transparent domed canopy and skirt plant enclosure.

A system may include a support structure for providing a vegetated canopy including a soil container support and a plurality of ribs disposed along the support structure, where the plurality of ribs are structurally configured to support a vegetated canopy disposed thereon. The system may also include a modular canopy structurally configured to attach to the support structure, the modular canopy including a soil container structurally configured to engage with the soil container support, a plurality of substantially rigid external members structurally configured to engage with a rib of the support structure, and a connecting member disposed along a length of the substantially rigid external members and attaching at a substantially rigid external member to another substantially rigid external member. The plurality of substantially rigid external members and the connecting members may form a trellis structurally configured to support vegetation.

A crop protection system having a cover for protecting a crop or crop producing plants; a plurality of cover support arms for supporting the cover such that a periphery of the cover is depends downwardly from the cover support arms; a plurality of supports for supporting the respective cover support arms; and a plurality of cover holders configured to hold the periphery of the cover away from the supports. The cover, when deployed, curtains at least in part the crop or crop producing plants.