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.

The present invention relates to a container in which one or more plants can be held. The invention relates in particular to a container in which plants and/or seeds are able to grow. The invention also relates to a method for growing plants. According to the invention, the container comprises a container base having a growth medium in which one or more plants can be grown, a container lid that is coupled to the container base, and a cutting member for cutting through the one or more plants. According to the invention, the cutting member can be actuated prior to or during an action of at least substantially breaking the coupling between the container lid and the container base.

The present invention provides a medium for plant cultivation including a thermoplastic resin containing at least one of an ethylene unit and a propylene unit, wherein an extract obtained by treating 10 g of the thermoplastic resin with 50 mL of ion-exchange water at 95 C. for 4 hours has a pH at 25 C. not less than 4 and not more than 9; a medium for plant cultivation allowing a plant to be efficiently grown regardless of the type of the plant with an apparatus and a method for plant cultivation including the medium for plant cultivation; and an apparatus and a method for plant cultivation including the medium for plant cultivation.

The present invention provides a medium for plant cultivation including a thermoplastic resin containing at least one of an ethylene unit and a propylene unit, wherein an extract obtained by treating 10 g of the thermoplastic resin with 50 mL of ion-exchange water at 95 C. for 4 hours has a pH at 25 C. not less than 4 and not more than 9; a medium for plant cultivation allowing a plant to be efficiently grown regardless of the type of the plant with an apparatus and a method for plant cultivation including the medium for plant cultivation; and an apparatus and a method for plant cultivation including the medium for plant cultivation.

An assembly well irrigation system for environmentally friendly water conservation includes: at least one well, having a ventilation tube inserted into the top of the well, an absorbent element covered onto the bottom and outer wall of the ventilation tube and filled up in an opening between the top of the well and the ventilation tube, and a float contained in the ventilation tube; and at least one water supply bottle, having a cover installed to the opening of the water supply bottle, and the cover having a fixed tube passing to the cover and a penetrating hole formed on the cover, and the penetrating hole having a movable tube capable of moving up and down for adjustment, and the water supply bottle being inverted, such that the cover is installed to the well, and the fixed tube, the movable tube and the ventilation tube are situated in the well.

The potted plant system of the present invention uses the space between the inner and outer pots as a reservoir for water. The water reservoir acts passively to transport water into the spoil of the inner pot which is subsequently used by the potted house plant. The reservoir is filled by over watering the inner pot and allowing the excess water to pass through the apertures within the inner pot. Passive transport of water from the reservoir to the soil occurs as the water saturation of the soil decreases. As a result, the soil and the potted plant remain hydrated for longer period of time as the reservoir continuously replenishes the water. The water within the reservoir can be drained through a quick connect sliding valve located on the outer pot. The quick connect sliding valve is either placed above another water receptacle or is fitted with a hose that transports the water to a drain.

The potted plant system of the present invention uses the space between the inner and outer pots as a reservoir for water. The water reservoir acts passively to transport water into the spoil of the inner pot which is subsequently used by the potted house plant. The reservoir is filled by over watering the inner pot and allowing the excess water to pass through the apertures within the inner pot. Passive transport of water from the reservoir to the soil occurs as the water saturation of the soil decreases. As a result, the soil and the potted plant remain hydrated for longer period of time as the reservoir continuously replenishes the water. The water within the reservoir can be drained through a quick connect sliding valve located on the outer pot. The quick connect sliding valve is either placed above another water receptacle or is fitted with a hose that transports the water to a drain.

An apparatus for planting a seedling (3) in an arid area comprises a vertical, downwardly tapering shroud (20) and a seedling plug (1) comprising a body of growing medium covered by a moisture resistant cap (14) which preferably is sealingly received in a lower region (22) of the shroud. The lower region of the shroud surrounding the upper portion of the seedling is buried beneath ground level (51) with at least one water reservoir (40, 200) and supplied with water via capillary wicks (43), the reservoir being buried beneath ground level and covered by a moisture resistant cover (60) which sealingly surrounds the shroud. The shroud extends above ground level to protect and shade the seedling and together with the cap (14) and cover (60) serves to retain moisture in the planting region for the first year of growth.

An apparatus for planting a seedling (3) in an arid area comprises a vertical, downwardly tapering shroud (20) and a seedling plug (1) comprising a body of growing medium covered by a moisture resistant cap (14) which preferably is sealingly received in a lower region (22) of the shroud. The lower region of the shroud surrounding the upper portion of the seedling is buried beneath ground level (51) with at least one water reservoir (40, 200) and supplied with water via capillary wicks (43), the reservoir being buried beneath ground level and covered by a moisture resistant cover (60) which sealingly surrounds the shroud. The shroud extends above ground level to protect and shade the seedling and together with the cap (14) and cover (60) serves to retain moisture in the planting region for the first year of growth.