A turf surface 80 comprising: (a) a reinforcing root-permeable mat 10; (b) a removable root-permeable backing 60 located beneath the reinforcing root-permeable mat 10; (c) a layer of growth media 42 located on the reinforcing root-permeable mat 10; and (d) natural grass plants 30 having roots 32 extending downwardly through the layer of growth media 42 and the reinforcing root-permeable mat 10 and the removable root-permeable backing 60; wherein, in use, prior to being laid at a destination site, the removable root-permeable backing 60 is separated from the reinforcing root-permeable mat 10, so that any roots 34 which engage with and extend through the removable root-permeable backing 60 are substantially removed from the turf surface 80.

The present application relates to novel soilless pre-vegetated mats comprising a carrier mat comprised of a material that does not degrade under exterior growing conditions, and vegetation whose roots intertwine within and under the carrier mat. The present application also relates to processes for production of the soilless pre-vegetated mats.

The present application relates to novel soilless pre-vegetated mats comprising a carrier mat comprised of a material that does not degrade under exterior growing conditions, and vegetation whose roots intertwine within and under the carrier mat. The present application also relates to processes for production of the soilless pre-vegetated mats.

A pre-vegetated vegetation element for greening artificial or natural surfaces is provided which retains sufficient strength over a prolonged period of time and which is bio-compostable at the end of the lifetime of the vegetation element includes a three-dimensional entangled mat of extruded filaments having an open space of at least 50%, a two-dimensional material layer, oriented plane parallel to the three-dimensional entangled mat of extruded filaments and connected to the three-dimensional entangled mat of extruded filaments, wherein the three-dimensional entangled mat of extruded filaments is filled with a substrate and a vegetation is grown on it to form a pre-vegetated vegetation mat, wherein the three-dimensional entangled mat of extruded filaments and the two-dimensional material layer include synthetic polymeric material selected such that the pre-vegetated vegetation element is bio-compostable according to EN 13432.

A hybrid grass support structure (100, 200, 300, 400, 500, 600, 710) comprising a growth medium layer (102), a stone wool layer (104) positioned below the growth medium layer, and a plurality of synthetic grass fibers (106). The growth medium layer comprises a growth medium. The synthetic grass fibers are incorporated at least into the growth medium layer.

A hybrid grass support structure (100, 200, 300, 400, 500, 600, 710) comprising a growth medium layer (102), a stone wool layer (104) positioned below the growth medium layer, and a plurality of synthetic grass fibers (106). The growth medium layer comprises a growth medium. The synthetic grass fibers are incorporated at least into the growth medium layer.

The present disclosure relates to vertical gardens. The present disclosure envisages a vertical lawn. The vertical lawn includes an artificial substrate, a water-proofing layer applied on the substrate, and a drainage sheet provided on the water-proofing layer. The drainage sheet has a plurality of projections configured thereon to facilitate flow of water therebetween. A geotextile sheet is fitted on an operative front surface of the drainage sheet. A hydrophilic rock mineral wool layer is secured to the operative front surface of the geotextile sheet. The rock mineral wool layer configured to absorb and retain moisture therein. A lawn mat secured to the rock mineral wool layer.

The present disclosure relates to vertical gardens. The present disclosure envisages a vertical lawn. The vertical lawn includes an artificial substrate, a water-proofing layer applied on the substrate, and a drainage sheet provided on the water-proofing layer. The drainage sheet has a plurality of projections configured thereon to facilitate flow of water therebetween. A geotextile sheet is fitted on an operative front surface of the drainage sheet. A hydrophilic rock mineral wool layer is secured to the operative front surface of the geotextile sheet. The rock mineral wool layer configured to absorb and retain moisture therein. A lawn mat secured to the rock mineral wool layer.

A method and apparatus for cultivating vegetation at an inhospitable location includes rooting immature vegetation in a mat combined with a super absorbent polymer (SAP) and, in embodiments, fertilizer, sand, and/or soil; providing a water reservoir below grade at the inhospitable location; placing the mat at the inhospitable location over the water reservoir; extending at least one wick from the mat to the water reservoir; and covering the mat with a perforated, transparent or semi-transparent cover. The wick can be infused with nutrients and/or fertilizer. Hollow tubes can extend downward from the mat to enable excess water to flow into the reservoir. The hollow tubes can surround the wicks. The transparent cover can be placed on or suspended above the mat. SAP, seeds, and/or fertilizer can be placed between mats in a stack. A water distribution system can be included for supplying additional water to the water reservoir.

A method and apparatus for cultivating vegetation at an inhospitable location includes rooting immature vegetation in a mat combined with a super absorbent polymer (SAP) and, in embodiments, fertilizer, sand, and/or soil; providing a water reservoir below grade at the inhospitable location; placing the mat at the inhospitable location over the water reservoir; extending at least one wick from the mat to the water reservoir; and covering the mat with a perforated, transparent or semi-transparent cover. The wick can be infused with nutrients and/or fertilizer. Hollow tubes can extend downward from the mat to enable excess water to flow into the reservoir. The hollow tubes can surround the wicks. The transparent cover can be placed on or suspended above the mat. SAP, seeds, and/or fertilizer can be placed between mats in a stack. A water distribution system can be included for supplying additional water to the water reservoir.