An insert for growing plants, including a plurality of receptacles, adapted for insertion into a container, wherein each of the receptacles is arranged for receiving a separate plant with a portion of gel for feeding the plant. The receptacles may be arranged to allow communication between the portions of gel in the receptacles to allow the plants to share a common feed reservoir of the gel.

A method of sowing watermelon seeds includes seeding triploid watermelon seeds and watermelon pollinizer seeds in separate cells within a seedling tray. The triploid watermelon seeds produce seedless watermelons and the pollinizer seeds produce seeded watermelons. The seeded watermelons are not inherently bred to have reduced competition to plants grown from the triploid watermelon seeds.

The disclosure relates to naturally biodegradable functional seedling paper pot and seedbed including a paper member with an open top, a side portion and a bottom portion, a first coating layer coated with an acrylic emulsion resin on inner and outer surfaces of the paper member, a second coating layer coated with a biodegradable coating composition on the first coating layer of the inner surface of the paper member, and a plurality of holes H formed in the bottom portion of the paper member, in which the biodegradable coating composition of the second coating layer includes water, black mica, activated carbon, detoxified sulfur, minerals, liquid microorganisms, and starch. According to the examples of the present disclosure, it is possible to supply nutrients necessary for the growth of crops by the biodegradation process of compositions that biodegrade completely after 3 to 4 months, help with the crop growth and prevent malnutrition in soil without separate fertilization works, eliminate the risk of damaging the seedling roots because there is no need for any separating work after seedling, reduce labor, and solve the soil pollution problems.

An automated mechanical loading system for loading seedling carriers into a transporter bin for transport to the field for planting. The system of the present invention includes a transport bin having a plurality of rails mounted on the inside walls of the bin for accepting a plurality of carriers, power driven projections slidably mounted on sleds which are fixedly mounted to the top frame of a lift for urging one or more carriers into a preselected set of opposing rails in the bin. The lift controls the height of the sled so that the carriers are urged into the preselected set of rails in the bin. A mechanically referenced coupler is included for securing the lift to the bin to restrict movement of the lift relative to the bin into which the seedling carriers are to be loaded during the automated loading operation.

A horticulture tray comprising a plurality of growing cells configured to hold a plant. Each one of the plurality of growing cells includes spaced apart sidewalls defining air gap openings therebetween. The plurality of growing cells are arranged in rows and columns which are aligned. The horticulture tray is rectangular with an outer wall extending around a periphery of the horticulture tray. The plurality of growing cells are arranged such that sidewalls of horizontally adjacent growing cells are aligned and face each other to block direct line of sight between the horizontally adjacent growing cells to block root travel between the horizontally adjacent growing cells.

A seeding device is provided. That seeding device includes a seeding paddle having a plurality of seed holders and a seed tray having a channel. The channel receives the seeding paddle so that seeds in the seed tray are easily directed into the plurality of seed holders. The paddle may then be removed from the seeding tray for planting seeds in a desired quantity at the desired spaced locations.

The present invention may relate to Aeroponic Systems and their individual elements. More particularly to automated systems capable of monitoring and adjusting some if not all of the light, nutrient, water quality and environmental factors required for the propagation and sustained growth of all types of plants. It may also describe methods to support the plants during propagation from seeds and for growth and harvesting. It may describe various methodologies for reducing space requirements and for increasing plant density without detriment to the growth cycles.

Provided is an expandable, modular tower planter having an internal vertical composting capability, and a method of assembling and using the same. Provided in various example embodiments is a modular composting garden container system comprising a base and a plurality of stackable rings forming a tower upon the base, including an optional base ring specially sized, shaped, and positioned to connect the tower to the base. A plurality of perforated, stackable tube sections are provided that are removably assembled into a compost tube assembly of selectable height and mounted within the interior of the tower and above the base. A plurality of holding struts are sized, shaped, and positioned to removably connect the compost tube assembly with the tower and to securely locate the compost tube assembly relative to the tower. Means are provided for recovering nutrient-rich drainage and selective recovery of compost material for reintroduction into the system.

A plant nursery and storage system for use in the growth and storage of field-ready plants. At least one planting block with tapered planting cells therein and extending openly from the top surface to the bottom surface thereof is placed in a container holding water. Plant material placed in the planting cells, with or without planting media, will grow into field-ready plants. The growing plants will be sub-irrigated by accessing water through the open base of the planting cells contacting the water in the container. The sub-irrigation technique of the invention replaces industry standards of top irrigation and bottom aeration for plant production, and addresses high costs associated with current production methods in the production of field-ready trees, shrubs, forbs, perennials, vegetables and grasses.

An insert for growing plants, including a plurality of receptacles, adapted for insertion into a container, wherein each of the receptacles is arranged for receiving a separate plant with a portion of gel for feeding the plant. The receptacles may be arranged to allow communication between the portions of gel in the receptacles to allow the plants to share a common feed reservoir of the gel.