An automated modular plant growing system includes a rack structure with primary guiding tracks and secondary guiding tracks transverse to each other, and upper guiding tracks in parallel and above the primary guiding tracks. The automated modular plant growing system also includes a plurality of mobile modules detachably connected to the upper guiding tracks and to a nutrient solution supply system.

A plant grower includes a base, an upper cover having a surface parallel to an upper surface of the base, the upper cover being disposed above the base so as to be spaced apart from the upper surface of the base, a plurality of growing panels disposed along the circumference of the upper surface of the base, the plurality of growing panels being rotatably disposed at the base and the upper cover, and a lighting bar extending vertically upwards from the center of the upper surface of the base to the upper cover, the lighting bar emitting light in a direction in which the plurality of growing panels is disposed, and a plurality of growing holders, into each of which a plant is inserted, disposed at one surface of each of the plurality of growing panels.

A method of potting a tree, wherein the method includes the steps of inserting the root system of the tree into the lumen of the pot, and supplying a particulate substrate to the pot to cover the root system using an apparatus including a supply system. To pot trees quicker, the supply system includes i) a buffer, and ii) at least one chute, wherein the method includes providing the buffer with a predetermined amount of particulate substrate, and batch-wise release of the particulate material in the buffer to provide the pot with the particulate material from the buffer via the at least one chute by gravity.

A method of potting a tree, wherein the method includes the steps of inserting the root system of the tree into the lumen of the pot, and supplying a particulate substrate to the pot to cover the root system using an apparatus including a supply system. To pot trees quicker, the supply system includes i) a buffer, and ii) at least one chute, wherein the method includes providing the buffer with a predetermined amount of particulate substrate, and batch-wise release of the particulate material in the buffer to provide the pot with the particulate material from the buffer via the at least one chute by gravity.

Plant growing systems and apparatuses are described herein. The system may include a plurality of planter module apparatuses where each planter module has an outer module and an insert. The insert may be removeable. Each planter module may further include top and bottom ports to engage planter module legs and/or horticultural accessories. Each planter module may further include a reservoir and a moisture wick. Each planter module may include a watering ring. Each planter module may be electrified. Each planter module may further communicate with one or more computing devices.

A true living organic (TLO) plant growing system that allows soil to be reused for every new growth cycle. In one aspect, the TLO plant growing system of the solves the problem of preventing opportunities for anaerobic micro-organism activity from building up within the soil thereby creating toxic chemicals that kill microbes beneficial to the growth of the plant. Specifically, the TLO system includes an aerated chamber between the bottom of the bed and the soil that the plants are growing to provide oxygen, carbon dioxide, water, and moisture to the TLO soil and plants and to promote optimal growing conditions, among other advantages disclosed herein.

A true living organic (TLO) plant growing system that allows soil to be reused for every new growth cycle. In one aspect, the TLO plant growing system of the solves the problem of preventing opportunities for anaerobic micro-organism activity from building up within the soil thereby creating toxic chemicals that kill microbes beneficial to the growth of the plant. Specifically, the TLO system includes an aerated chamber between the bottom of the bed and the soil that the plants are growing to provide oxygen, carbon dioxide, water, and moisture to the TLO soil and plants and to promote optimal growing conditions, among other advantages disclosed herein.

A container, such as a pot, strip or tray, comprising at least one accommodation for at least one specimen from a group, comprising: plants; seeds; seedlings; cuttings and the like, where the accommodation is configured to be filled with a substrate and the container exhibits at least a side wall, a bottom and a top surface to accommodate the substrate and the specimen in the substrate, of which at least a portion of the top surface is open to enable growth of the specimen there through in a longitudinal direction. The side wall includes a completely open passage which is dimensioned for inserting or extracting a block of substrate with essentially a full size of an interior of the accommodation into or from the interior through the passage in a sideways direction relative to the longitudinal direction, where at least the side wall includes a cutting edge alongside the passage.

A floating wetland structure including a plurality of floating connected modules, each module having a frame that is at least partially hollow and a support structure adapted to support a plurality of containers for growing plants in the wetland.

The present technology is generally directed to modular grow boxes for growing microgreens and other plants. The modular grow boxes generally include a first modular element having a plate and one or more walls extending therefrom to form a chamber, a second modular element having a platform for supporting a growth medium, and a third modular element that can act as a cover and/or base. The first, second, and third modular elements can be assembled in a first configuration that provides a generally enclosed area for growing plants during a germination phase. The first, second, and third modular elements can also be assembled in a second configuration that provides a partially exposed area for growing plants during a post-germination phase. In some embodiments, the modular grow boxes provide a self-contained, self-watering apparatus that is expected to simplify the process of growing microgreens and other plants.