A grass sports ground is produced by mixing man-made vitreous fibres into soil having relatively high loam levels at a rate in the range 0.5 to 50 parts by weight per 100 parts soil (dry weight), preferably in the presence of moisture to separate the fibres and distribute them among soil particles, and then growing grass. The soil/fibre mixture has desirable moisture management properties as well as good mechanical characteristics providing extended use characteristics even in cold, wet or hot and dry conditions.

Disclosed is a grass protection mat for soft ground, comprising: an upper mat comprising a first body in which first grass passing spaces are continuously arranged and a first outer frame formed to finish an outer edge of the first body; and a bottom supporting mat which is arranged under the upper mat, wherein the bottom supporting mat comprises a second body in which second grass passing spaces are continuously arranged, and one or more hook fasteners which protrudes from the second body at a predetermined position corresponding to the first outer frame of the upper mat so that it is hooked to and coupled with a portion of the first outer frame.

A method for cultivating a plant includes applying allantoin to a plant; exposing the plant to a temperature of about 30 C. or more for at least about 60 minutes; and growing the plant in a cultivation medium.

A method for cultivating a plant includes applying allantoin to a plant; exposing the plant to a temperature of about 30 C. or more for at least about 60 minutes; and growing the plant in a cultivation medium.

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.

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.

Disclosed is a grass protection mat including: a plurality of bodies formed with grass passing spaces; and one or more contraction-expansion compensatory connector(s) connecting the plurality of bodies and compensating for contraction or expansion of the mat units.

Methods for growing plants and seeds are described. Methods may include blending a polyacrylamide polymer with the uppermost portion of the soil, usually top 1 inch of the soil at a rate of around 1 pound polyacrylamide per 100 square feet of soil. The polyacrylamide attaches to the roots of the plant and acts as an extension of the root system facilitating the uptake of water by the plant and increasing the soil permeability around the root system. The method also improves germination of the seeds and facilitates the growth of the resulting plants. The method may be utilized with a variety of plants, sod, and trees.

A construction method of fast-setting polymer grouting for rapid control of slope erosion and landslide. This solution includes a landslide control method and a slope erosion control method: sorting out an operation platform; drilling and grouting of polymer high-pressure jet grouting piles on the diseased slope; drilling a row of grouting water interception holes densely on the rear edge of the diseased slope; drilling, on the operation platform, a plurality of anchor holes on the diseased slope; inserting a ground anchor into each anchor hole and performing polymer grouting to form a polymer anchorage body; laying a steel wire gauze on the surface of the diseased slope, and connecting and fixing the steel wire gauze with the tail end of each ground anchor; spraying a two-component expandable polymer grouting material onto the steel wire gauze to form a polymer anti-scour layer; drilling a plurality of planting holes on the diseased slope with a backpack drill through meshes of the steel wire gauze; and filling each planting hole with grass seed mixed nutrient soil. The present invention has the advantages of short construction period, ecological and environmental protection, convenient construction, high strength and strong scour resistance.

A construction method of fast-setting polymer grouting for rapid control of slope erosion and landslide. This solution includes a landslide control method and a slope erosion control method: sorting out an operation platform; drilling and grouting of polymer high-pressure jet grouting piles on the diseased slope; drilling a row of grouting water interception holes densely on the rear edge of the diseased slope; drilling, on the operation platform, a plurality of anchor holes on the diseased slope; inserting a ground anchor into each anchor hole and performing polymer grouting to form a polymer anchorage body; laying a steel wire gauze on the surface of the diseased slope, and connecting and fixing the steel wire gauze with the tail end of each ground anchor; spraying a two-component expandable polymer grouting material onto the steel wire gauze to form a polymer anti-scour layer; drilling a plurality of planting holes on the diseased slope with a backpack drill through meshes of the steel wire gauze; and filling each planting hole with grass seed mixed nutrient soil. The present invention has the advantages of short construction period, ecological and environmental protection, convenient construction, high strength and strong scour resistance.