A tree and plant watering system relating to improved transfer of water to trees and plants (both new and existing) is provided. The system comprises soil penetrators, soil anchors, and area extenders to enhance water capacity and to provide ease of water transfer to root systems. Additionally, the system provides plant growth ladders to assist upward plant growth and root apertures to assist root growth.

The invention provides components, structures, methods, and assemblies for applying feeding materials to plants. The invention may include a permeable structure constructed of a woven material incorporating nutrient-rich material (such as compost, fertilizers, soil amendments, soil supplements, or other material). The structure may be substantially closed around the edges and allow for the flow of water and other material therethrough to plants and surrounding vegetation.

A planting pot comprises a container with an open top portion and a closed bottom portion, the bottom portion having at least one drainage opening for drainage of water therefrom, a planting medium for a plant located within the container, the planting medium comprising a top, an irrigation system comprising an irrigation line in fluid communication with at least two vertically oriented posts, the posts comprising an upper portion above the top of the planting medium and a lower portion within the planting medium, at least the lower portion of the posts being hollow. The lower portion has multiple openings to permit irrigation water to flow there through into the planting medium, and a shade supported by the upper portions of the posts for shading a plant in the container.

A top feeding wicking apparatus and system for dispersing liquid through plant growing medium is disclosed. The apparatus includes a geometrically shaped container having a bottom, an inner wall, and an outer wall forming a channel therearound for receiving liquid therethrough. Container has a center opening for receiving a plant and container bottom is configured with at least one hole for receiving liquid therethrough. A geometrically shaped lid having a top, an inner wall, and an outer wall forming a channel therearound from an underside of lid is configured to be adjoined to container. A geometrically shaped base layer and wicking layer each having an inner wall and an outer wall and a center opening for receiving plant with a longitudinal opening extending therefrom to outer wall to allow placement of base and wicking layers on plant or to allow removal of base and wicking layers from plant. Container with lid is configured to set atop base layer and wicking layer such that liquid is dispersed through plant growing medium.

An irrigation apparatus for dispersing liquid through a plant growing medium is disclosed. The apparatus includes a geometrically shaped container of variable size. The container has an outer wall with an inner surface, an open top, and a base portion configured to cover the plant growing medium. The base portion is configured with a plurality of holes for receiving liquid therethrough. The plurality of holes are configured as raised half-circles to block light and receive air, water, and nutrients. The container is configured with at least one center opening therethrough having an inner wall for receiving a plant. The center opening has at least one longitudinal opening extending therefrom to outer wall to allow placement of container on plant or to allow removal of container from plant. The container is configured with a plurality of geometrically shaped stakes of variable size extending therefrom the base portion for providing stability for apparatus to be secured in plant growing medium.

A potted plant guard for protecting a pot from rodents that includes: a frame, wherein the frame creates an outer perimeter of the potted plant guard; a grid within the frame, where the grid includes a plurality grid member; a group of removable grid members within the plurality of grid members; a group of permanent grid members within the plurality of grid members; and a plurality of openings along the frame, wherein the openings are adapted to receive the removable grid members. The frame is preferably circular in shape.

A top dripping and bottom wicking assembly and method of operation feeds a reservoir that controllably drips liquid nutrient solution from above a plant, and also uses capillary action of a planar wick member to draw the liquid nutrient solution into a plant growing medium and plant roots. The assembly works to controllably drip the liquid nutrient onto the plant through sized and dimensioned drip holes that form in the reservoir, while simultaneously dispersing the liquid nutrient solution through a planar wick member to disperse liquid nutrient solution to a plant growing medium and the roots of the plant. Stakes hold the reservoir above the plant. The wick member is flat and forms a central opening to allow passage of the plant. A plant support member retains the plant in an upright position. The plant support member forms wicking holes to enable passage of liquid nutrients from the wick.

A portable base cover that includes at least two substantially rigid body sections each with a rear sidewall, two opposing sidewalls flanking and extending away from the rear sidewall and having side terminal surfaces, and an upper wall extending away from the rear sidewall and having an upper wall side terminal surface with a recessed portion defined thereon and forming, with the side terminal surfaces, a perimeter section surface, wherein the body sections are operably configured to adjacently and removably couple together about their respective perimeter section surfaces to form a substantially closed configuration, form a tightly-spaced joint between each of the respective perimeter section surfaces, and to define an enclosed base covering cavity spatially coupled to an enclosed protrusion aperture defined by recessed portions defined by the upper walls of the body sections.

A plant protector can include a plurality of vertical members, a first ring member, and a handle assembly. The plurality of vertical members can extend along respective arcuate paths between respective bottom ends and respective top ends. The bottom ends can be spaced about a bottom periphery and the top ends can be spaced about a top periphery. A plurality of the plant protectors are stackable on one another with the top periphery of an upper plant protector receivable in the bottom periphery of a lower plant protector. The first ring member can interconnect the top ends of the plurality of vertical members. The handle assembly can include a second ring member and a handle mounted on the second ring member. The second ring member can be releasibly engageable with the first ring member.

The planter system using waste materials repurpose waste materials to construct a self-irrigating planter that promotes plant growth in a protective environment. The planter system includes a water reservoir constructed from scrap tire defining a hollow interior serving as water storage, the reservoir being buried in soil. A condensation funnel having a sloped condensation skirt extends into the center opening of the scrap tire to direct condensate into the water reservoir. A root ball cover made from scrap newspaper covers the root system of a plant, and the plant is buried in the center opening of the scrap tire. A soil protection cover is placed atop the root ball cover to protect the soil of the root ball, and a support tube extends therefrom to protect the stem of the plant from environmental conditions. A valve regulates delivery of water to the reservoir. Most components are made from scrap plastic.