The invention relates to a coherent propagation growth substrate product (1) formed of man-made vitreous fibres (MMVF), the product (1) having two opposed top and bottom surfaces and at least one cavity (2) which is open at the top surface and which extends from the top surface towards the bottom surface, wherein a superabsorbent polymer (3) is provided in the cavity (2).

The invention relates to a coherent propagation growth substrate product (1) formed of man-made vitreous fibres (MMVF), the product (1) having two opposed top and bottom surfaces and at least one cavity (2) which is open at the top surface and which extends from the top surface towards the bottom surface, wherein a superabsorbent polymer (3) is provided in the cavity (2).

A hydroponics growing medium comprising mineral fibres and an organic binder, the growing medium has a Weathered Interlaminar Strength of at least 4 kilopascals and a phenol content of less than or equal to 0.01% by weight.

A device for cultivating plants is provided, comprising a watering device, an illuminating device, one or more seed mats, and a control unit configured to control the watering device and the illuminating device by means of a program controller, wherein the program controller comprises watering data and illuminating data which is individually matched to the one or more seed mats.

A device for cultivating plants is provided, comprising a watering device, an illuminating device, one or more seed mats, and a control unit configured to control the watering device and the illuminating device by means of a program controller, wherein the program controller comprises watering data and illuminating data which is individually matched to the one or more seed mats.

In the present invention a method for manufacturing a self-supporting structure used in germination of seeds and plants growth and a process for producing the same is presented. The self-supporting structure is obtained by mixing a growth medium with a binding agent, which is solely or mainly a fibrous material. In preferred embodiments, the fibrous embodiment is biodegradable. The invention discloses a process wherein the growth medium and the binding agent are mixed followed by shaping into the desired dimension of the self-supporting structure.

In the present invention a method for manufacturing a self-supporting structure used in germination of seeds and plants growth and a process for producing the same is presented. The self-supporting structure is obtained by mixing a growth medium with a binding agent, which is solely or mainly a fibrous material. In preferred embodiments, the fibrous embodiment is biodegradable. The invention discloses a process wherein the growth medium and the binding agent are mixed followed by shaping into the desired dimension of the self-supporting structure.

The present disclosure relates to horticultural hydrogels for growing plants and/or fungi, and more particularly to hydrogel-based substrates for the germination, growth, and/or sporulation of those plants and/or fungi.

The present disclosure relates to horticultural hydrogels for growing plants and/or fungi, and more particularly to hydrogel-based substrates for the germination, growth, and/or sporulation of those plants and/or fungi.

A plant growth media composition, articles made therefrom, and methods of making and using the same are described. The plant growth media composition includes a combination of one or more plant growth substrate materials and an additive such as cellulose fibers, clay, carrageenan, alginate, chitosan, or combinations thereof.