A method to grow cannabis is described, wherein the method includes providing and treating a source of water, mixing the water with an additive to form a liquid mixture, transferring the liquid mixture to a plurality of cannabis plants grown in a growing medium including a mycorrhiza fungus, and growing the cannabis using a humidity control method, then harvesting the cannabis plants. Trimming and grinding the cannabis along with use of environmental control methods including temperature, humidity, lighting schedules, and carbon dioxide concentrations are also described.

A plant cultivating apparatus includes a body that defines a cultivation chamber, a cultivation bed disposed on the cultivation chamber and configured to move relative to the body, a nutrient storage configured to store nutrient solution, a pipe configured to supply the nutrient solution to the cultivation bed, a bed checker configured to detect movement of the cultivation bed, a level checker configured to detect a level of nutrient solution in the cultivation bed, and a controller configured to receive a signal from the bed checker and the level checker and to adjust the nutrient solution supplied to the cultivation bed. The cultivation bed includes a signal connector that is disposed on one surface of the cultivation bed corresponding to the bed checker and the level checker and that is selectively connected to the bed checker and the level checker according to whether to move the cultivation bed.

A plant cultivating apparatus includes a body that defines a cultivation chamber, a cultivation bed disposed on the cultivation chamber and configured to move relative to the body, a nutrient storage configured to store nutrient solution, a pipe configured to supply the nutrient solution to the cultivation bed, a bed checker configured to detect movement of the cultivation bed, a level checker configured to detect a level of nutrient solution in the cultivation bed, and a controller configured to receive a signal from the bed checker and the level checker and to adjust the nutrient solution supplied to the cultivation bed. The cultivation bed includes a signal connector that is disposed on one surface of the cultivation bed corresponding to the bed checker and the level checker and that is selectively connected to the bed checker and the level checker according to whether to move the cultivation bed.

The present disclosure relates a plant cultivation apparatus and a water supply control method thereof. The plant cultivation apparatus may perform water supply, lighting, dehumidification and the like to cultivate a plant according to a cultivation condition corresponding to a cultivation stage and a type of the plant provided in a cultivation room.

The invention provides a planter arrangement for hydroponics. The planter arrangement includes a plurality of plant containers arranged side by side, circumferentially about a central axis to define a circular configuration of plant containers. The invention further provides a vertical planter which includes at least two planter arrangements which are stacked in a vertical series such that outlets of plant containers in an upper planter arrangement direct liquid into inlets of plant containers in a lower planter arrangement.

The invention provides a planter arrangement for hydroponics. The planter arrangement includes a plurality of plant containers arranged side by side, circumferentially about a central axis to define a circular configuration of plant containers. The invention further provides a vertical planter which includes at least two planter arrangements which are stacked in a vertical series such that outlets of plant containers in an upper planter arrangement direct liquid into inlets of plant containers in a lower planter arrangement.

Methods, apparatus, systems and processor-readable storage media for distributed farming are provided herein. A computer-implemented method includes facilitating transfer of one or more substrates and one or more crops at approximately a given stage of a growth cycle, from (i) a first location to (ii) one or more growing units, wherein the given stage of the growth cycle comprises a stage prior to completion of the growth cycle; processing data, captured via multiple sensors within the one or more growing units, wherein the data comprise (i) data pertaining to at least one of the one or more substrates and the one or more crops, and (ii) data pertaining to the one or more growing units; and performing one or more automated actions based at least in part on the processing of the data.

Methods, apparatus, systems and processor-readable storage media for distributed farming are provided herein. A computer-implemented method includes facilitating transfer of one or more substrates and one or more crops at approximately a given stage of a growth cycle, from (i) a first location to (ii) one or more growing units, wherein the given stage of the growth cycle comprises a stage prior to completion of the growth cycle; processing data, captured via multiple sensors within the one or more growing units, wherein the data comprise (i) data pertaining to at least one of the one or more substrates and the one or more crops, and (ii) data pertaining to the one or more growing units; and performing one or more automated actions based at least in part on the processing of the data.

This disclosure provides systems, methods, and devices related to the study of ecological processes. In one aspect, a device includes a base, a substrate, and an enclosure. The substrate is in contact with a first surface of the base. The substrate and the base define a root chamber. The enclosure is in contact with a second surface of the base. The base and the enclosure define a growth chamber. The base defines a stem port connecting the root chamber and the growth chamber. The base further defines a first port in fluid communication with the root chamber and a second port in fluid communication with the root chamber. The device is operable to contain a plant, roots of the plant being in the root chamber, a stem of the plant passing through the stem port, and leaves of the plant being in the growth chamber.

This disclosure provides systems, methods, and devices related to the study of ecological processes. In one aspect, a device includes a base, a substrate, and an enclosure. The substrate is in contact with a first surface of the base. The substrate and the base define a root chamber. The enclosure is in contact with a second surface of the base. The base and the enclosure define a growth chamber. The base defines a stem port connecting the root chamber and the growth chamber. The base further defines a first port in fluid communication with the root chamber and a second port in fluid communication with the root chamber. The device is operable to contain a plant, roots of the plant being in the root chamber, a stem of the plant passing through the stem port, and leaves of the plant being in the growth chamber.