The current invention relates to a plant growth and support module comprising (a) a backing (1), (b) a hydroponic substrate (8), wherein said hydroponic substrate (8) comprises an array of holes (9) for receiving a plant and/or a growth medium, (c) an irrigation layer, wherein said irrigation layer comprises a capillary material, and (d) a front (2), wherein said front (2) is connected to said backing (1), enclosing the hydroponic substrate (8) and the irrigation layer, said front (2) comprising an array of openings (4), said array of openings (4) are aligned with the holes of the hydroponic substrate (8), and wherein both the backing (1) and the front (2) comprise glass fibers, and which backing (1) and said front (2) are interconnected by means of an infusible stitching (3). Further aspects of the invention relate to a kit of at least two plant growth and support modules, a green wall, and a method of manufacturing a green wall.

The current invention relates to a plant growth and support module comprising (a) a backing (1), (b) a hydroponic substrate (8), wherein said hydroponic substrate (8) comprises an array of holes (9) for receiving a plant and/or a growth medium, (c) an irrigation layer, wherein said irrigation layer comprises a capillary material, and (d) a front (2), wherein said front (2) is connected to said backing (1), enclosing the hydroponic substrate (8) and the irrigation layer, said front (2) comprising an array of openings (4), said array of openings (4) are aligned with the holes of the hydroponic substrate (8), and wherein both the backing (1) and the front (2) comprise glass fibers, and which backing (1) and said front (2) are interconnected by means of an infusible stitching (3). Further aspects of the invention relate to a kit of at least two plant growth and support modules, a green wall, and a method of manufacturing a green wall.

A sowing unit is provided including water-absorbing material, an enclosure and a seed. The water-absorbing material is vermiculite, which is a hygroscopic negatively-charged material capable of binding a positively charged nutrient ion selected from NH4+, L-arginine, L-lysine and L-histidine. Further, there is least one hole in the water-absorbing material arranged to hold one or more seeds.

The present invention relates to an assembly, comprising a plant pot (258) having a bottom (260) and at least one side wall (264), extending from the bottom up to a top rim and at least one hole (268) which is arranged in or at least near the bottom, at least one wick (30) extending from below the bottom and through the hole and a container (256), dimensioned to accommodate at least a bottom portion of the plant pot comprising the hole through which the wick extends out of the plant pot. The container and the plant pot in an assembled state define a reservoir to accommodate fluid, such as water, for the plant to be drawn up through the wick during at least one of growing, transporting and display for sale of a plant in the plant pot, which is accommodated in the container. An overflow (284) with a controllable valve (288) may function to distinguish between a stationary state of the assembly and transport thereof.

A sowing unit including water-absorbing material, an enclosure and a seed, wherein the water-absorbing material includes a hygroscopic negatively-charged material capable of binding a positively charged nutrient ion selected from NH4+, L-arginine, L-lysine and L-histidine; and optionally a nutrient including a positively charged nutrient ion selected from K+, NH4+, L-arginine, L-lysine and L-histidine. Methods and uses of the sowing unit are described.

A sowing unit including water-absorbing material, an enclosure and a seed, wherein the water-absorbing material includes a hygroscopic negatively-charged material capable of binding a positively charged nutrient ion selected from NH4+, L-arginine, L-lysine and L-histidine; and optionally a nutrient including a positively charged nutrient ion selected from K+, NH4+, L-arginine, L-lysine and L-histidine. Methods and uses of the sowing unit are described.

A planter includes a base including a raised portion to form a channel beneath the base. At least one substantially vertical planter sidewall is formed with the base. At least one drain post is integrally formed on the base and extending substantially vertically upwards with a drain opening at the top of each of the at least one drain post in communication with the channel. The planter includes a removable riser. The removable riser includes a plate supported by a plurality of hollow support columns wherein the hollow support columns are longer than the at least one drain post forming a reservoir beneath the plate. The hollow support columns each include at least one opening in a column sidewall.

Provided is a flower pot generating little root rot by controlling a water supply rate for a relatively long period of time even using a simple structure regardless of its size. The flower pot includes: an outer pot body; an inner pot body housed in the outer pot body with a gap as a water supply portion; a vertical position changeable member provided in a predetermined place to connect the outer pot body and the inner pot body; a flange provided on an upper end surface of the sidewall of the inner pot body; and a sealing portion formed of an elastic member and provided between the flange and the upper end surface of the sidewall of the outer pot body, in which water stored in the water supply portion is supplied to the inner pot body through a nonwoven fabric member.

Provided is a flower pot generating little root rot by controlling a water supply rate for a relatively long period of time even using a simple structure regardless of its size. The flower pot includes: an outer pot body; an inner pot body housed in the outer pot body with a gap as a water supply portion; a vertical position changeable member provided in a predetermined place to connect the outer pot body and the inner pot body; a flange provided on an upper end surface of the sidewall of the inner pot body; and a sealing portion formed of an elastic member and provided between the flange and the upper end surface of the sidewall of the outer pot body, in which water stored in the water supply portion is supplied to the inner pot body through a nonwoven fabric member.

Provided is a flower pot generating little root rot by controlling a water supply rate for a relatively long period of time even using a simple structure regardless of its size.

The flower pot includes: an outer pot body; an inner pot body housed in the outer pot body with a gap as a water supply portion; a vertical position changeable member provided in a predetermined place to connect the outer pot body and the inner pot body; a flange provided on an upper end surface of the sidewall of the inner pot body; and a sealing portion formed of an elastic member and provided between the flange and the upper end surface of the sidewall of the outer pot body, in which water stored in the water supply portion is supplied to the inner pot body through a nonwoven fabric member.