A living wall system or method involving a plurality of living wall modules. Each living wall module has a module body enclosing a module plenum, the module body having a growth media port and at least one duct port in fluid communication with the growth media port via the module plenum. The plurality of module plenums are interconnected through the plurality of duct ports to form a recirculation plenum. At least one directional blower is received within the recirculation plenum, the at least one directional blower between at least one upstream living wall module and at least one downstream living wall module to direct fluid flow from the at least one upstream living wall module to the at least one downstream living wall module.

A living wall system or method involving a plurality of living wall modules. Each living wall module has a module body enclosing a module plenum, the module body having a growth media port and at least one duct port in fluid communication with the growth media port via the module plenum. The plurality of module plenums are interconnected through the plurality of duct ports to form a recirculation plenum. At least one directional blower is received within the recirculation plenum, the at least one directional blower between at least one upstream living wall module and at least one downstream living wall module to direct fluid flow from the at least one upstream living wall module to the at least one downstream living wall module.

Process for making a foam suitable as plant growth medium by reacting a polyisocyanate, a polyether polyol mixture and water at an isocyanate index of 90-150 wherein the polyol mixture used comprises at least 2 polyols and wherein the polyol mixture comprises less than 50% by weight oxyethylene calculated on the weight of the polyol mixture.

A plantlet holder (25) is formed of nutrient solution-absorbing, open celled, phenolic foam, with an upper handling portion (55), an insertion well (60) for a plantlet and a lower portion (56) adapted to laterally locate in a ring (30) in a work stand (24), the handling portion (55) adapted to be frictionally gripped for robotic or manual handling. Robotic handling apparatus includes a pair of plantlet holder gripper manipulator arms (40) adapted to engage the handling portion (55) for movement of a plantlet holder (25) between a material source portion, an operator work portion (14), and a material delivery portion. The operator work portion (14) is characterised by the work stands (24) locating the plantlet holders vertically by a step portion (32).

The medium for plant cultivation according to the present invention includes a bag body, and a crushed material obtained by crushing a foam body made of an aliphatic polyester-based resin and packed in the bag body in a compressed state, and in the medium a ratio of the bulk density of the crushed material after being packed in the bag body to the bulk density of the crushed material before being packed in the bag body is larger than 1 and 2 or less.

A garden seed planter that displays a color for identifying the type of garden product that will be produced by a plant from a seed contained in a starch capsule of the garden seed planter. In a preferred lollipop form embodiment at least a portion of the garden seed planter starch capsule has a colored coating that is substantially the same color as the garden product produced by the plant to be grown from the seed, and there is a planter stake attached to the seed capsule having a portion that also displays substantially the same color as the garden product.

A garden seed planter that displays a color for identifying the type of garden product that will be produced by a plant from a seed contained in a starch capsule of the garden seed planter. In a preferred lollipop form embodiment at least a portion of the garden seed planter starch capsule has a colored coating that is substantially the same color as the garden product produced by the plant to be grown from the seed, and there is a planter stake attached to the seed capsule having a portion that also displays substantially the same color as the garden product.

A stackable raising seedling device has a device body and a floating planting board. The device body has raising seeding hole parts disposed at intervals and holes disposed intervals. The raising seeding hole pans and the holes are staggered in parallel and with each other along a first direction, the raising seeding hole part and the holes are staggered in parallel with each other along a second direction, and the holes of the first direction and the raising seeding hole parts of the second direction are adjacently arranged. The raising seeding hole pan can receive a culture medium layer, the culture medium layer has an agar gel, and the agar gel is composed of a plant growth nutrient, agar powder and water. The present disclosure improves the overall seed germination rate and the quality of planted crops when massively planting the planted crops.

A stackable raising seedling device has a device body and a floating planting board. The device body has raising seeding hole parts disposed at intervals and holes disposed intervals. The raising seeding hole pans and the holes are staggered in parallel and with each other along a first direction, the raising seeding hole part and the holes are staggered in parallel with each other along a second direction, and the holes of the first direction and the raising seeding hole parts of the second direction are adjacently arranged. The raising seeding hole pan can receive a culture medium layer, the culture medium layer has an agar gel, and the agar gel is composed of a plant growth nutrient, agar powder and water. The present disclosure improves the overall seed germination rate and the quality of planted crops when massively planting the planted crops.

A synthetic soil substrate system has a plurality of synthetic soil substrate layers that are individually designed to promote plant growth as the roots grow into the layer and as a function of the growth stage. The synthetic soil substrate layers may be planar or may be concentrically arranged with a first synthetic soil substrate ring layer being configured inside of a second synthetic soil substrate ring layer. A synthetic soil substrate has pores that are configured for plant growth and retention and/or deliver of water and growth additives. The average pore size of a first synthetic soil substrate layer may be substantially different from the average pore size of an adjacent synthetic soil substrate layer. Also, the pore structure or shape of the pores may be different between synthetic soil substrate layers, The synthetic soil substrate may have an integral growth additive retained in the pores.