A pot for culturing an epiphyte, in particular an orchid, is provided. The pot is integrally injection molded from a transparent plastic and has a bottom, a lower edge, an upper edge and a sidewall extending between the lower edge and the upper edge. The sidewall of the pot is provided with an outwardly protruding lip at the level of the upper edge. A cross section through the sidewall of the pot, tangent to the lower face of the lip, has a substantially hexagonal or octagonal shape. Consequently, the pot, at least at the top, is hexagonal or octagonal, thus allowing more pots to be positioned per unit area compared to a round shape having the same diameter as the diameter of the circumscribed circle of the hexagonal or octagonal shape.

Exemplary embodiments relate to a seed planting system that incorporates an outer shell, a plant growing or rooting media, seed(s), fertilizer, and a lid, as well as methods of using this planting system. Exemplary embodiments also relate to an indoor growing unit which is configured for use with the seed planting system.

A planting pot comprising a biodegradable container comprising an open top portion and an open bottom portion, a planting medium for a plant located within the container, the planting medium comprising a top surface, an upper layer of material, a lower layer of material, and a middle layer of material disposed between the upper and lower layers of material, a hollow irrigation line comprising an upper portion above the top surface of the planting medium and a lower portion within the planting medium, at least a portion of the lower portion of the irrigation line comprising multiple openings to permit irrigation water to flow there through into the planting medium, a moisture sensor disposed within the planting medium, and a plant planted in the container.

A plant tray having a bottom and a sidewall. The bottom has at least one prominence rising from the inner surface of the bottom. The at least two prominences have at least one elevated drainage opening that is elevated above the inner surface of the bottom. A planting is made with at least one plant that is grown in soil in the plant tray and has air pruned roots at the at least one elevated drainage opening. The medium, such as soil, is watered to allow water to initially reside in the inner surface of the bottom to a level limited by the at least one elevated drainage opening.

Forms of the technology relate to a biodegradable composition including at least one biobased or partially biobased polymer and at least one filler comprising processed organic matter wherein the filler is adapted to provide mechanical stiffness to the composition and/or provide one or more nutrient(s) to soil upon degradation of the composition in soil. The at least one biobased or partially biobased polymer may comprise a combination of polymers including polybutylene succinate (PBS) and polylactic acid (PLA). The filler may include processed organic matter obtained from animal matter, for example animal carcasses. Forms of the technology relate to the use of such a biodegradable composition for the manufacture of a container for plants.

An elongated bag for use as a ready-to-use grow bag. The bag is manufactured as an elongated plastic body with a sealed bottom and a sealable top. The bag includes one or more gussets defined by folds in the bag and a score line for a tear strip in an area sufficiently below the top and above the fill material to allow the bag to lie flat for transportation and deploy into a cylinder for planting. The bag includes drain holes near the bottom of the bag and microperforations along the bag for respiration.

Biodegradable planter pots constructed from starch and an outer silicon layer. The starch provides a biodegradable and/or compostable characteristic to the pot, allowing it to be broken down into the soil after the pot has been planted. The outer silicon layer provides durability to the pots, allowing them to retain their shape for an additional period of time and withstand handling, while also retaining the biodegradable characteristics of the pots. Advantageously, the pots allow seedlings and seeds to be directly deposited into the soil, while also providing structure to the plant for the initial growth period. Advantageously, the pots provide a stable structural support that is hardy and/or water-resistant but can also being broken down as the plant grows.

A multiple cell horticulture propagation tray arranged in rows of star-shaped cells forming a substantially rectangular shaped tray having the cells formed therein, combined with inserted cylindrically shaped growing media plugs comprising primarily of peat moss with an amount of biochar, and enveloped to retain moisture within the growing media.

The invention is directed to a process to prepare a three-dimensional shaped biodegradable pulp product by (b) pressing a 3D product made of biodegradable pulp which product is coated with a water-resistant compound having a melting temperature of above 40 C. in a mould at a temperature above the melting temperature of the water-resistant compound, and (c) releasing the product from the mould and reducing the temperature to below the melting temperature of the water-resistant compound.

A pot for a plant may include a container having an axis that is vertical, a base, a sidewall extending upward from the base, an interior, an exterior, drain holes extending from the interior to the exterior and an interior bottom. The container may be configured to receive and be stacked with a second container inside of the container. In one example, the legs of the second container may be configured to extend through the drain holes of the container beyond the interior bottom of the container. In another example, the legs of the second container may be visible from the exterior of the first container.