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.

The disclosure relates to naturally biodegradable functional seedling paper pot and seedbed including a paper member with an open top, a side portion and a bottom portion, a first coating layer coated with an acrylic emulsion resin on inner and outer surfaces of the paper member, a second coating layer coated with a biodegradable coating composition on the first coating layer of the inner surface of the paper member, and a plurality of holes H formed in the bottom portion of the paper member, in which the biodegradable coating composition of the second coating layer includes water, black mica, activated carbon, detoxified sulfur, minerals, liquid microorganisms, and starch. According to the examples of the present disclosure, it is possible to supply nutrients necessary for the growth of crops by the biodegradation process of compositions that biodegrade completely after 3 to 4 months, help with the crop growth and prevent malnutrition in soil without separate fertilization works, eliminate the risk of damaging the seedling roots because there is no need for any separating work after seedling, reduce labor, and solve the soil pollution problems.

A bio-degradable composition comprising 0.2%-10% w/w bio-degradable polymer and an organic non hydroxylic solvent may be used as a coating or adhesive in agriculture and home gardening as well as in other industries.

Systems and methods suitable for growing, identifying, and tracking plugs and plants using radio-frequency identification (RFID) devices, as well as methods for making such systems. Such a method includes providing a biodegradable pot assembly and a non-biodegradable RFID module. The pot assembly has an assembly basewall and assembly sidewalls contiguous with the assembly basewall to define a cavity within the pot assembly. The RFID module is embedded within the assembly basewall, has openings therethrough, and comprises an RFID device configured to communicate with an RFID reader and store information identifying the pot assembly. The roots of a seedling grown in a growing medium within the pot assembly grow through and entangle the RFID module. Data is stored on the RFID device to identify the seedling, and an RFID reader is used to communicate with the RFID device to receive the data from the RFID device and identify the seedling.

Seed pillows are disclosed herein. An exemplary seed pillow may include a first water-soluble film, a seed cluster disposed on the first water-soluble film, and a second film that is positioned over the first water-soluble film and the seed cluster. The second film may have a first portion that is fused to a second portion of the first water-soluble film from ultrasonic vibrations. Further, the first water-soluble film and the second film may be shrink-wrapped around the seed cluster through heat application to the first water-soluble film and the second film for a first period of time.

Reforestation capsules composed of biodegradable materials are operable to be used in aerial reforestation operations. Capsules may contain one or more seedlings, compacted fertilizer, soil, and/or nutrients. Capsules include a flight platform component and cone tip component. The capsule structure survives impact and may serve as additional nutrient for the seedling(s). A housing unit sized and configured to contain and dispense capsules can be mounted or otherwise housed in an aircraft to deliver capsules.

A planter made of PLA, a compostable resin with an element of kelp or a natural fertilizer added in molding. The planter has a crown shaped top edge, the mild points of which serve as a deterrent to animals walking on or eating the plant. The planter has slotted sidewalls in the base area that serve as a vent for water flow and for root expansion when directly planted into the ground. The container body is composed of a 100% organic compostable material. The body can be formed as a blend of 30 to 50% organic plastic with the remaining portion being composed of compostable organic material.

A grow plug (1) has a dimensionally stabilized dried body (3) of glued organic material as well as at least a single seed grain (5). The seed grain is present on the body and the body has a density that is such that it absorbs liquid from below up to the top side and retains an amount of water that is sufficient for having the seed grain germinate and grow into a plant. When a plant is cultivated by means of this grow plug (1) the grow plug is put in the soil (25) or in a cultivation system and subsequently moistened by pouring water from above onto the grow plug, where the redundant water is drained by the grow plug or the grow plug is inserted into water (21) with its bottom side, and the grow plug sucks up water and some time after the germination of the seed grain the grow plug is put in the soil (25) or in the cultivation system.

A device and method for penetrating a hydrophobic layer caused by a fire and introducing new vegetation into a forest floor includes seeds, seedlings, and/or saplings carried within a plurality of tapered containers, possibly mixed with soil, sand, gravel, fertilizer, SAP granules, and/or water. The containers are inserted into the ground through the hydrophobic layer by dropping or propelling them from an aircraft, or manually pressing on them. One or more holes proximate the bottoms of the containers enable rain water and germinating roots to penetrate into soil beneath the hydrophobic layer. A perforated lid can prevent the seeds or seedlings from being ejected upon impact with the forest floor. A weighted tip can improve penetration of the containers into the forest floor. A plurality of tapered containers can extend downward from a tray or frame. The container and/or perforated lid can be made from biodegradable materials.

Container devices for use with planting assemblies are disclosed. Exemplary container devices include a sleeve for receiving at least a portion of a planting apparatus of the planting assembly, and multiple corner supports that contact a bottom portion of the planting apparatus. Container devices can be used for storing, transporting, and shipping the planting assemblies.