A seedling cube for growing seedlings, the seedling cube comprising a seedling tray having a plurality of cells and a branching table surrounded by the cells, and a cube lid having a water storage tank, which is configured to be disposed on top of the seedling tray.

A method of growing fish and marijuana in a single body of water, includes planting seeds; growing the seeds in a nursery until the plants are 8 inches tall; potting the plants into individual pots; placing the pots with the plants into a float; placing the float into a first bay in a tank with 58 bays and fish in corresponding baskets to be situated under the float with the potted plants; incubating the plants in the first bay and the fish in the corresponding fish basket for 7 days; moving the float and corresponding fish basket into the second bay; adding a second float with another round of potted plants and a second corresponding fish basket into the first bay; progressing the floats and corresponding fish baskets forward to the next bay and adding subsequent floats and corresponding fish baskets into the first bay each 7 days; after 7 days in the 58th bay, harvesting the fish; trimming the plants; moving the plants to a first bay of a flowering stage tank.

Systems, methods, and devices for growing plants may include a first cup having a first lip disposed about a first opening. A ring may have a first channel defined about an inner diameter of the ring and a second channel defined about the inner diameter of the ring. The ring may retain the first lip in the first channel. Soil and plant material may be disposed in the first cup. A second cup may have a second lip disposed about a second opening. The second cup may be disposed over the first cup with the second lip adjacent the first lip. The ring may retain the second lip in the second channel.

A plant growing vessel includes an impervious outer vessel, a cover, a first permeable membrane, a nutrient chamber, and a pocket. The impervious outer vessel includes an inert substrate in a root zone. The cover is positioned over the impervious outer vessel. The first permeable membrane is in contact with the inert substrate. The nutrient chamber includes solid nutrients. The nutrient chamber is between the cover and the first permeable membrane or between the first permeable membrane and a bottom of the impervious outer vessel, and the solid nutrients are in contact with the first permeable membrane. The pocket is configured to allow seeds, seedlings, or shoots of plants access to the inert substrate through an aperture in the cover.

A plant propagation cell carrier (1) having a frame (2) with plant cell compartments (3) for receiving a plant cell of fibrous web material, wherein each plant cell compartment has opposing pairs of side walls (5, 6; 7, 8) forming an essentially open upper end (2A) and a partly open bottom end (3B) of the plant cell compartments (3), whereby the plant cell compartments consist of a plant cell basket (10) having side walls each being a continuation of the opposing side walls of the plant cell compartments (3) and each of the side walls of the plant cell baskets is formed of a number of spaced slender ribs (9) extending from an upper end (3A) of the plant cell baskets to the bottom end (3B) of the plant cell baskets of the plant cell compartments and whereby completely open areas (11, 12) are formed in the plant cell baskets, between the adjacent ribs and in corner areas (13) of the plant cell baskets.

The present invention relates to a container for propagating growth of seedlings, having a main body comprising a base, a central wall extending vertically from the base. A first wall section and a second wall section are arranged to the main body. The first wall section and the second wall section are hingeably connected to the main body. The base, the central wall, the wall sections forms in the closed condition at least two cells being open at top. The base comprises a supporting structure at the lower part of the main body, wherein the main body is provided with supporting means for holding an irrigation mat. The present invention also relates to a tray designed for receive and carry one or more of said containers, a greenhouse including the tray and one or more of the mentioned containers, and a method for propagating growth of seedlings.

A tray system for use in horticultural or agricultural operations comprising a ducting assembly for de-stratification and a drainage system for consolidating excess water and nutrients.

An artificially intelligent harvest and reuse system for planting vegetables has a first mechanic arm moving a plurality of planting plates around a first conveyor, a second conveyor, a first shelf and a second shelf. The planting plates are sent to a connecting conveyor for the grown vegetables thereon to be picked up by a second mechanic arm and further sent to a root cutting apparatus then to a packaging apparatus, while the empty planting plates are further sent to an exit end of the first conveyor and a third mechanic arm places nursery foams with sprouts from a storage area onto the empty planting plates. Then the refilled planting plates are sent back to the corresponding shelf via the second conveyor and placed back into the corresponding layers neatly by the first mechanic arm on a first distributing apparatus.

A bed for planting in is disclosed. The bed includes panels for creating a frame. A liner, comprising a rip-resistant material, that fits within the frame and is attached thereto. Each panel includes spaces to access the liner. The material of the liner permits slits to be made in it without the slit expanding. Any slits made in the liner are located in the spaces within the panels. The liner is filled with grow medium. Plants are planted in the grow medium and grow out of the upper surface of the grow medium in the liner. Slits are placed in the liner, and plants are placed in the grow medium to grow through the slits. A method for creating a bed to plant in is also disclosed

A method and system for supporting containerized plants in an upright and stationary position and at customizable, uniform spacing therebetween. The system comprises a frame, pockets, stabilizers positioned within the pockets and spacers. The pockets, stabilizers and spacers provide both horizontal and vertical support to each containerized plant, holding it securely in place without stakes or cables. The pockets with stabilizers and the spacers may be arranged in various patterns to promote stability of the system and health of the containerized plants. An irrigation system may be coupled to the system for maintaining and nourishing plants. The length of the frame is greater than the width, thus creating a stable environment to combat winds and disruptive forces. Individual frames may be attached to form designated and defined uniform growing or display areas and provide greater stability.