A modular gardening system characterized by a rain collection system, one or more planters, a water distribution system, a growing medium, and an optional bench suitable for plant growth. The water distribution system is capable of collecting, storing, and distributing water to the plants. The modular gardening system further comprises water retention baskets with a wicking system. The method of modular gardening utilizes the modular gardening system and determines the proper plant species, growing medium, and habitat requirements while adjusting the modular gardening system for the proper application.

A modular gardening system characterized by a rain collection system, one or more planters, a water distribution system, a growing medium, and an optional bench suitable for plant growth. The water distribution system is capable of collecting, storing, and distributing water to the plants. The modular gardening system further comprises water retention baskets with a wicking system. The method of modular gardening utilizes the modular gardening system and determines the proper plant species, growing medium, and habitat requirements while adjusting the modular gardening system for the proper application.

A system (100) for producing a plant (35), the system having an indoor environment, a plurality of plant holders (1) for growing and transporting a plant therein, a controller (105) for at least controlling temperature and humidity in the indoor environment. The plant holder has a semi-permeable foil (20) defining a non-planar boundary of an interior space and an exterior space, a reservoir (2), having an amount of liquid for feeding the plant. The reservoir (2) and the semi-permeable foil (20) are arranged to allow the plant to grow in the interior space. The semi-permeable foil (20) has permeation of water vapor.

A self-watering system includes a watering member, a pot support member, and a water container member. The watering member includes a support tube member and a water transfer member. The supporting member includes a head portion, a body portion, and a bottom portion. The head portion has a conical shape. The body portion has a hollow cylindrical shape, and includes a body groove formed in a longitudinal direction and at least one air hole formed in the body groove. The water transfer member serves to absorb water and transfer the water to soil and a root of a plant in a pot. The pot support member serves to support the pot, and includes a fixing hole. The water container member stores water to be absorbed by the water transfer member. The watering member is fixed to the pot support member such that the bottom portion is inserted into the fixing hole of the pot support member.

A modular gardening system (MGS) for plant growing, the system comprising a garden bed for containing soil that is configured to grow at least one plant therein; an elevated rolling stand module supporting the garden bed; a bed cover system module disposed on top of the garden bed; and a mister irrigation module providing irrigation to the plant.

A modular gardening system (MGS) for plant growing, the system comprising a garden bed for containing soil that is configured to grow at least one plant therein; an elevated rolling stand module supporting the garden bed; a bed cover system module disposed on top of the garden bed; and a mister irrigation module providing irrigation to the plant.

A Growing apparatus for cleansing air and watering plant, wherein the apparatus includes a modular panel constructed for either vertical or horizontal planting systems, including connecting couplers and end caps for directing water flow from upper to lower .[.channels.]. .Iadd.chambers.Iaddend.. Panel consist of 5 .[.channels.]. .Iadd.chambers .Iaddend.per section with opposing conical top and bottom set at .[.45 degree.]. .Iadd.45-degree .Iaddend.angles .[.(FIG. 9-23).]. for both channeling water and accepting irrigation nozzle. System can also use a horizontal channel system while the orientation is different but function is the same. Panels stack nesting consecutively on top of each other to make larger systems.

A Growing apparatus for cleansing air and watering plant, wherein the apparatus includes a modular panel constructed for either vertical or horizontal planting systems, including connecting couplers and end caps for directing water flow from upper to lower .[.channels.]. .Iadd.chambers.Iaddend.. Panel consist of 5 .[.channels.]. .Iadd.chambers .Iaddend.per section with opposing conical top and bottom set at .[.45 degree.]. .Iadd.45-degree .Iaddend.angles .[.(FIG. 9-23).]. for both channeling water and accepting irrigation nozzle. System can also use a horizontal channel system while the orientation is different but function is the same. Panels stack nesting consecutively on top of each other to make larger systems.

The present invention relates to a novel moss pole designed for plant support and watering. The pole comprises a first elongated hollow perforated structure or pole, a second elongated structure, and absorbent materials surrounding both structures. Optional flexible lateral arms and optional fixing legs are provided for supporting lateral branches and enhancing stability in the soil. This innovative moss pole addresses issues of water wastage, rapid drying of moss, weak grip in soil, and lack of support for lateral branches, offering improved water conservation, plant health, stability, and support for gardeners and plant enthusiasts.

A self-watering planting apparatus configured to promote the growth of aerial roots atop a thin layer of rooting media in a shallow passively humidified rooting chamber. The apparatus delivers water to the root system aeroponically via captured condensate that passively drips onto the aerial roots and via capillarity within the rooting media that extends continuously into a reservoir located beneath the rooting chamber.