Embodiments described herein provide for multi-media structures 100 with growth enhancement additives for multiple stages of growth of an organism such as a plant, fungus or bacteria, including the production of individual media structures and multi-media structures 100 for multi-stage growth. Methods for the production of individual media structure and multi-media structures 100 with growth enhancement additives are provided. Methods for using multi-media structures 100 to grow an organism through multiple stages of growth such as root production, vegetative growth and flowering are also provided.

This invention includes a coherent growth substrate product formed of mineral wool, the product having two opposed top and bottom surfaces and a seed hole extending from the top surface towards the bottom surface, the base of the seed hole defining a seed bed, wherein the volume of the growth substrate product is not more than 150 cm.sup.3, and wherein the seed bed has a width of at least 5 mm.

This invention includes a coherent growth substrate product formed of mineral wool, the product having two opposed top and bottom surfaces and a seed hole extending from the top surface towards the bottom surface, the base of the seed hole defining a seed bed, wherein the volume of the growth substrate product is not more than 150 cm.sup.3, and wherein the seed bed has a width of at least 5 mm.

A method of growing plants in a coherent growth substrate product is provided and includes: providing at least one coherent growth substrate product comprising man-made vitreous fibres (MMVF) bonded with a cured aqueous binder composition; positioning one or more seeds, seedlings, cuttings or plants in contact with the growth substrate product; and irrigating the growth substrate product. The aqueous binder composition prior to curing includes a component (i) in the form of one or more oxidized lignins, a component (ii) in the form of one or more cross-linkers, and a component (iii) in the form of one or more plasticizers.

A method of growing plants in a coherent growth substrate product is provided and includes: providing at least one coherent growth substrate product comprising man-made vitreous fibres (MMVF) bonded with a cured aqueous binder composition; positioning one or more seeds, seedlings, cuttings or plants in contact with the growth substrate product; and irrigating the growth substrate product. The aqueous binder composition prior to curing includes a component (i) in the form of one or more oxidized lignins, a component (ii) in the form of one or more cross-linkers, and a component (iii) in the form of one or more plasticizers.

Methods, platform and receptacles, such as a composting and retail platform facilitating multipurpose use of receptacles, characterized in that the platform manages cat litter sales, uses multipurpose receptacles for shipping of cat litter, for composting, and for an additional use when filled and readied for composting.

Methods, platform and receptacles, such as a composting and retail platform facilitating multipurpose use of receptacles, characterized in that the platform manages cat litter sales, uses multipurpose receptacles for shipping of cat litter, for composting, and for an additional use when filled and readied for composting.

Described herein are compositions and methods relating to functionalized sands or soils.

Described herein are compositions and methods relating to functionalized sands or soils.

The present invention belongs to the technical field of landscape garden engineering, and specifically discloses a salt-isolated rain garden structure. The salt-isolated rain garden structure includes a depression surrounded by side slopes, where a 10 cm thick drainage layer, a 10-30 cm thick filler layer, a 5 cm thick transition layer, a 20-30 cm thick planting layer, a 0.2-0.5 cm thick mulch layer and a 15-20 cm thick ponding layer are stacked in order from the bottom of the depression to up; a salt barrier is disposed between the planting layer and the transition layer and/or between the drainage layer and a saline layer; a vertical overflow pipe and a horizontal drainage pipe are disposed at the bottom of the depression; the overflow pipe and drainage pipe are connected; the salt barrier is filled with river sand, zeolite or ceramsite and is 10-20 cm in thickness.