A method and container for developing seedlings includes germinating the seeds and air pruning the seedlings to a depth of about 3 inches.

The present invention is directed to a stackable pot assembly having pots arranged in horizontal and vertical directions to form the stacked pot assembly. The assembly includes two or more blocks mounted over each other. The first block mounted over the floor having one or more rows of twin-bases arranged lengthwise or side-by-side. The upper blocks mounted one over another, and the upper blocks mounted over the first block. The upper block comprises twin-pots and round-pots. The twin-pots and round-pots have feet configured in their bottom, wherein the twin-pot have two spaced-apart feet while the round pot has a single feet. A lid secures the twin-bases, twin-pots, and round-pots, wherein the lid is having apertures for receiving the feet when a twin-pot or a round-pot is mounted over the lid secured to below block. The lid is further having a plant hole.

A grow box comprises a box body and a cover which are matched with each other; a planting unit arranged on the grow box for planting plants; a nutrient solution supply unit comprising a nutrient solution storage chamber and an atomizer, and the nutrient solution is supplied to the roots of the plants under the condition that the plants lack nutrient solution, wherein the nutrient solution storage chamber is constructed as a part of box body space which is separated from the box body by a partition plate. The present invention further discloses a plant grower using the same grow box with a supporting device. In addition, various sensors are arranged in the grow box and the plant grower to perform automatic induction without the need of manual operation, so that the pleasure and the simplicity of planting are enhanced.

The invention taught is a method and apparatus to mix a special polymer, hot water or other hot water material containing additives and a special mixture of dry growing substances mixed in a particular way so that they may be applied to structures such as to ceilings, walls, and any grade of vertical slants, commercial roofs, courtyards, indoor and outdoor applications. The purpose is to coat any surface and grow any plant for any reason be it erosion control, beautification of an area. The invention would help in reforestation after fires and such. This invention has a wide range of applications and so it is impossible to limit it to just one of these applications. Green parking lots and green areas that before could not be made green is just one area for the invention.

An apparatus, method and system for use in the shipment, delivery, and display of flowers. The apparatus comprises a preferably translucent enclosure with a lid, housing a removable tray assembly. The removable trays have aligned openings for the insertion of flower stems. The enclosure itself is configured to be stacked conveniently on a pallet for bulk shipment and delivery. The system and method comprise providing an interface for users to order flowers contained in the enclosure and delivering the enclosure with a customized multimedia electronic greeting.

A raised garden box assembly. The raised garden box assembly may include a plurality of hollow sidewalls, each hollow sidewall may have a top rail, a bottom rail, an inner side member and an outer side member, where the top rail is connected to an outer side member and an inner side member and the bottom rail is also connected to the inner side member and the outer side member. The outer side member and the inner side member may form a hollow interior space and each of the plurality of hollow sidewalls may include a plurality of support ribs, each of the plurality of support ribs may directly contact the outer side member and the inner side member. The top rail, bottom rail, outer side member, inner side member and plurality of support ribs of each hollow sidewall may be integrally formed as a single unitary piece via an extrusion process. The raised garden box assembly may also include a plurality of hollow corner posts, each corner post having a first and second opening, where each of the first and second openings may receive a terminating end of one of the plurality of hollow sidewalls, the plurality of hollow sidewalls and corner posts forming an enclosure.

A plant cultivation device and a greening apparatus thereof are provided. The plant cultivation device includes a fixing member which includes a first channel, a shared channel and a plurality of first through-holes. The first through-hole is connected with the first channel and the shared channel, and passes through an upper surface of the fixing member. Both the first through-hole and the shared channel are stack-up with each other, and the first through-hole is located above the shared channel. The shared channel is configured to fill with a cultivation medium,and the first channel is configured to store water flowing from the shared channel by the first through-hole when too much water is stored in the shared channel. The present disclosure can optimize a growing environment of plants.

Growing systems may include a number of modular growing chambers with integrated support columns that eliminate the need for an external support frame and which provide a simple way to remove chambers from a stack for harvesting. Pins provided on the support columns ensure alignment and provide for easy removal of a lower chamber by first supporting the stack and slightly lowering it relative to the stack. The chambers may be provided with one or more removable access panels that provide access to the interior of the chambers for harvesting from the plant section inside. The chamber structure supports harvesting processes that permit harvesting of chambers in sequence by sequentially accessing the interior of successive chambers and harvesting a production portion from the plant section inside. Plant production can be made continuous and perpetual by sequentially harvesting from successive chambers and repeating the process after a plant section in a first chamber has regenerated another production portion. The chambers may include one or more plant guides for guiding growth of the plant sections within each chamber.

A multiple cell horticulture propagation tray arranged in rows of star-shaped cells forming a substantially rectangular shaped tray having the cells formed therein, combined with inserted cylindrically shaped growing media plugs comprising primarily of peat moss with an amount of biochar, and enveloped to retain moisture within the growing media plugs

Growing systems may include a number of modular growing chambers with integrated support columns that eliminate the need for an external support frame and which provide a simple way to remove chambers from a stack for harvesting. Pins provided on the support columns ensure alignment and provide for easy removal of a lower chamber by first supporting the stack and slightly lowering it relative to the stack. The chambers may be provided with one or more removable access panels that provide access to the interior of the chambers for harvesting from the plant section inside. The chamber structure supports harvesting processes that permit harvesting of chambers in sequence by sequentially accessing the interior of successive chambers and harvesting a production portion from the plant section inside. Plant production can be made continuous and perpetual by sequentially harvesting from successive chambers and repeating the process after a plant section in a first chamber has regenerated another production portion. The chambers may include one or more plant guides for guiding growth of the plant sections within each chamber.