An indoor gardening appliance includes a liner defining a grow chamber and a grow tower mounted within the grow chamber for receiving a plurality of plant pods. A hydration assembly is positioned within a root chamber and includes an upper nozzle mounted to a top wall of the root chamber, an inverted tripod mounted to the top wall of the root chamber for supporting a lower fluid conduit, a lower nozzle mounted on the lower fluid conduit proximate a bottom of the root chamber, and a valve assembly for selectively and independently regulating the flow of fluid through the upper nozzle and the lower nozzle.

The present disclosure is directed to improved vertical farming using autonomous systems and methods for growing edible plants, using improved stacking and shelving units configured to allow for gravity-based irrigation, gravity-based loading and unloading, along with a system for autonomous rotation, incorporating novel plant-growing pallets, while being photographed and recorded by camera systems incorporating three dimensional/multispectral cameras, with the images and data recorded automatically sent to a database for processing and for gauging plant health, pest and/or disease issues, and plant life cycle. The present disclosure is also directed to novel harvesting methods, novel modular lighting, novel light intensity management systems, real time vision analysis that allows for the dynamic adjustment and optimization of the plant growing environment, and a novel rack structure system that allows for simplified building and enlarging of vertical farming rack systems.

An apparatus for cultivation of long-stem vegetable plants, related system, methods and uses are provided. The apparatus includes a frame rack with at least one essentially horizontal cultivation platform configured to support a stem portion of at least one long-stem vegetable plant rooted in a static cultivation tray, wherein each the cultivation platform is established by a conveying device and wherein speed of the conveying device is adjustable such, as to correspond to the speed of plant growth.

A system and related methods for increasing the density and efficiency of horticultural production in greenhouse/glasshouse/conservatory settings comprising an upper conveyor and a lower track that allow for the movement of plants/crops through a greenhouse system to thereby create a more consistent growing environment.

A system and related methods for increasing the density and efficiency of horticultural production in greenhouse/glasshouse/conservatory settings comprising an upper conveyor and a lower track that allow for the movement of plants/crops through a greenhouse system to thereby create a more consistent growing environment.

A stackable raising seedling device has a device body and a floating planting board. The device body has raising seeding hole parts disposed at intervals and holes disposed intervals. The raising seeding hole pans and the holes are staggered in parallel and with each other along a first direction, the raising seeding hole part and the holes are staggered in parallel with each other along a second direction, and the holes of the first direction and the raising seeding hole parts of the second direction are adjacently arranged. The raising seeding hole pan can receive a culture medium layer, the culture medium layer has an agar gel, and the agar gel is composed of a plant growth nutrient, agar powder and water. The present disclosure improves the overall seed germination rate and the quality of planted crops when massively planting the planted crops.

A stackable raising seedling device has a device body and a floating planting board. The device body has raising seeding hole parts disposed at intervals and holes disposed intervals. The raising seeding hole pans and the holes are staggered in parallel and with each other along a first direction, the raising seeding hole part and the holes are staggered in parallel with each other along a second direction, and the holes of the first direction and the raising seeding hole parts of the second direction are adjacently arranged. The raising seeding hole pan can receive a culture medium layer, the culture medium layer has an agar gel, and the agar gel is composed of a plant growth nutrient, agar powder and water. The present disclosure improves the overall seed germination rate and the quality of planted crops when massively planting the planted crops.

An indoor gardening appliance includes a liner defining a grow chamber and a grow module rotatably mounted within the grow chamber for receiving a plurality of plant pods. A grow module is provided for receiving pods within apertures of the grow module, which includes locking tabs configured for slidably engaging with slots, which are defined in each pod. The grow module and the pods have complementary tapered interfaces that form a seal when the locking tabs are slidably engaged with the slots.

An indoor gardening appliance includes a liner defining a grow chamber and a grow module rotatably mounted within the grow chamber for receiving a plurality of plant pods. A grow module is provided for receiving pods within apertures of the grow module, which includes locking tabs configured for slidably engaging with slots, which are defined in each pod. The grow module and the pods have complementary tapered interfaces that form a seal when the locking tabs are slidably engaged with the slots.

Modular systems for propagating plants in at least one of a hydroponic environment and an aquaponics environment may include at least one tank configured to hold liquid. A modular drive assembly may be carried by the at least one tank. At least one propagation module may be drivingly engaged for rotation by the modular drive assembly. The at least one propagation module may be configured to support and propagate at least one plant. At least one pump may be disposed in fluid communication with the at least one tank. The at least one pump configured to pump the liquid from the at least one tank through the at least one propagation module. Modular methods for propagating plants in at least one of a hydroponic environment and an aquaponics environment are also disclosed.