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.

The disclosure relates to a planter.

The disclosure relates to a planter.

A storing, germinating, propagating and or growing system for living organisms includes: at least one growth medium for germinating, propagating and or growing living organisms; at least one growth tray for receiving the at least one growth medium; and at least one rack for receiving one or more growth trays, wherein the one or more growth trays include an adaptable growth tray. An adaptable growth tray can include an extendable surface for positioning living organisms; and at least one mechanism for moving the tray between a compact configuration and an expanded configuration, wherein the surface for placing living organisms extends and contracts with the at least one mechanism moving between compact configuration and expanded configuration respectively.

A storing, germinating, propagating and or growing system for living organisms includes: at least one growth medium for germinating, propagating and or growing living organisms; at least one growth tray for receiving the at least one growth medium; and at least one rack for receiving one or more growth trays, wherein the one or more growth trays include an adaptable growth tray. An adaptable growth tray can include an extendable surface for positioning living organisms; and at least one mechanism for moving the tray between a compact configuration and an expanded configuration, wherein the surface for placing living organisms extends and contracts with the at least one mechanism moving between compact configuration and expanded configuration respectively.

An apparatus for growing plants is includes a body section having an upper orifice, a lower orifice, a back section, and at least one door. The upper orifice allows for planting of a plant while the at least one door allows for removal of the plant for transplanting. The upper orifice is smaller in cross-sectional area than the lower orifice allowing for plants to grow in their natural pattern giving the roots more room to grow in more soil from which to absorb nutrients making for a happier, healthier plant which will not need to be transplanted as often.

A system for the fertigation of a plant vessel and method of use for the same is disclosed. The system comprises a grow module containing a plurality of growing trays additionally containing plants, and/or shoots of plants in various stages of development. The growing trays are individually extracted from the grow module via a tray movement system and tray elevator controlled by a control system and precisely placed in a fertigation system, wherein they are aligned over and lowered onto an at least one nozzle which penetrate the plant vessels containing the plants and fertigate them with a combination of water, nutrients, and/or pressurized air. The individual growing tray is then replaced in the grow module and the process is repeated for all growing trays and plant vessels in the grow module.

An innovative modular indoor growing system uses a holistic approach that includes an heirloom/ancestral seed collection sourced from global seed banks, an in-home easy-to-use production system, passport-style information for people to explore or experience the global seed diversity of a crop, onboard sensors and cameras for real-time monitoring of the crop, virtual assistance facilitating the selection, development, and creation of new varieties, and a crowd sourced data collection network that relies on artificial intelligence to build a state-of-the-art knowledge base for product optimization and consumer intelligence.

An innovative modular indoor growing system uses a holistic approach that includes an heirloom/ancestral seed collection sourced from global seed banks, an in-home easy-to-use production system, passport-style information for people to explore or experience the global seed diversity of a crop, onboard sensors and cameras for real-time monitoring of the crop, virtual assistance facilitating the selection, development, and creation of new varieties, and a crowd sourced data collection network that relies on artificial intelligence to build a state-of-the-art knowledge base for product optimization and consumer intelligence.

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.