A plant plug for germinating, cutting and/or growing plants and/or for tissue culture includes a strip of polymeric fibres, where the fibres are substantially oriented in the plane of the strip and optionally locally mutually bonded to one another, and where the strip is arranged in multiple, vertically arranged layers. In a layer the fibres may be substantially oriented horizontally or vertically. A typical configuration includes a cylinder shaped plant plug. A manufacturing method and various uses of the plant plug are also described.

A plant plug for germinating, cutting and/or growing plants and/or for tissue culture includes a strip of polymeric fibres, where the fibres are substantially oriented in the plane of the strip and optionally locally mutually bonded to one another, and where the strip is arranged in multiple, vertically arranged layers. In a layer the fibres may be substantially oriented horizontally or vertically. A typical configuration includes a cylinder shaped plant plug. A manufacturing method and various uses of the plant plug are also described.

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.

Resilient plant development media are disclosed that can include a first layer that includes a plurality of adjacent strands, a second layer that includes a plurality of strands that are adjacent and that is in stacked relation relative to the first layer, wherein the strands of the first layer and the strands of the second layer are in a non-aligned orientation relative to each other. The strands in the first layer and the strands in the second layer may define a crisscross pattern. The multilayer resilient media is effective in supporting seeds during germination and plants throughout their growth and development. The multilayer resilient media is effective for use in various plant growing modalities, e.g., aeroponic, nutrient film, and hydroponic plant growing environments, ratooning processes, and may be easily cleaned for reuse.

Resilient plant development media are disclosed that can include a first layer that includes a plurality of adjacent strands, a second layer that includes a plurality of strands that are adjacent and that is in stacked relation relative to the first layer, wherein the strands of the first layer and the strands of the second layer are in a non-aligned orientation relative to each other. The strands in the first layer and the strands in the second layer may define a crisscross pattern. The multilayer resilient media is effective in supporting seeds during germination and plants throughout their growth and development. The multilayer resilient media is effective for use in various plant growing modalities, e.g., aeroponic, nutrient film, and hydroponic plant growing environments, ratooning processes, and may be easily cleaned for reuse.

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.

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.

A seedmat for growing plants, the seedmat comprises a biodegradable base layer, a seed layer and a biodegradable cover layer. The seed layer includes fertilizer granules or pellets that each have a coating, such as a polymer coating, that enables the pellets to absorb water and to slowly release that water, together with fertilizer.

A seedmat for growing plants, the seedmat comprises a biodegradable base layer, a seed layer and a biodegradable cover layer. The seed layer includes fertilizer granules or pellets that each have a coating, such as a polymer coating, that enables the pellets to absorb water and to slowly release that water, together with fertilizer.