Irrigation landscape and growing system

The invention claimed is: 1. A fixed irrigation landscape growing system installed in a region selected from: a Köppen climate region BWh (warm desert climate), BWk (cold desert climate), BSh (warm semi-arid climate), BSk (cold semi-arid climate), Csa (warm Mediterranean climate), Csb (temperate Mediterranean climate), California and a Köppen zone Csb, Csa, BS and BW in California; comprising: a supporting substrate; a water absorbent blanket comprising needled mineral wool fibers and being arranged above the substrate, in which at least 50% of the fibers by number of the needled mineral wool blanket are orientated at an angle of ≤20° with respect to the major surface of the needled mineral wool blanket; a growing medium arranged above the water absorbent blanket; and an irrigation system selected from: a) a plurality of spaced irrigation pipes arranged above the water absorbent blanket in which the average spacing between the irrigation pipes is at least 30 cm; and b) a plurality of spaced circle irrigation sprinklers arranged above the growing medium in which the distance between a first sprinkler and each of its adjacent sprinklers is greater than 1.2 times the radius of the sprinkler pattern of the first sprinkler. 2. The fixed irrigation landscape growing system of claim 1 , in which the irrigation system is selected from a) the plurality of spaced irrigation pipes arranged above the water absorbent blanket in which the average spacing between the irrigation pipes is at least 30 cm; and in which the plurality of the spaced irrigation pipes are arranged between the water absorbent blanket and the growing medium. 3. The fixed irrigation landscape growing system of claim 1 , in which the irrigation system is selected from a) the plurality of spaced irrigation pipes arranged above the water absorbent blanket in which the average spacing between the irrigation pipes is at least 30 cm; and in which the plurality of spaced irrigation pipes are arranged above the growing medium. 4. The fixed irrigation landscape growing system of claim 1 , in which the irrigation system is selected from b) the plurality of spaced circle irrigation sprinklers arranged above the growing medium in which the distance between a first sprinkler and each of its adjacent sprinklers is greater than 1.2 times the radius of the sprinkler pattern of the first sprinkler; and in which the sprinkler patterns of the adjacent sprinklers leave a non-sprinkled area which is ≥0.01% of the area of the sprinkler pattern of one of the sprinklers. 5. The A-fixed irrigation landscape growing system of claim 1 , in which the irrigation system is selected from b) the plurality of spaced circle irrigation sprinklers arranged above the growing medium in which the distance between a first sprinkler and each of its adjacent sprinklers is greater than 1.2 times the radius of the sprinkler pattern of the first sprinkler; and in which the plurality of irrigation sprinklers are arranged with a spacing of at least 2 cm between the sprinkler patterns of adjacent sprinklers. 6. The fixed irrigation landscape growing system of claim 1 , in which the water absorbent blanket comprises binderless mineral wool fibers. 7. The fixed irrigation landscape growing system of claim 1 , in which the water absorbent blanket has a thickness in the range 10 mm to 50 mm. 8. The fixed irrigation landscape growing system of claim 1 , in which the water absorbent blanket has the form of a continuous strip having a length which is ≥4 m and a width which is ≥0.7 m. 9. The fixed irrigation landscape growing system of claim 1 , in which the water absorbent blanket has a water retention which is ≥500 l/m 3 . 10. The fixed irrigation landscape growing system of claim 1 , in which the water absorbent blanket is free of superabsorbent polymers. 11. The fixed irrigation landscape growing system of claim 1 , in which the growing system comprises grass growing through and protruding from the growth medium. 12. The fixed irrigation landscape growing system of claim 1 , in which the landscape growing system is a grass covered portion of a park. 13. The fixed irrigation landscape growing system of claim 1 , in which the landscape growing system forms part of a sports surface selected from a golf course and a sports pitch. 14. The fixed irrigation landscape growing system of claim 1 , in which the irrigation system is selected from a) the plurality of spaced irrigation pipes arranged above the water absorbent blanket in which the average spacing between the irrigation pipes is at least 30 cm, and in which the average spacing between the irrigation pipes is ≤2 m. 15. The fixed irrigation landscape growing system of claim 1 , in which the growing medium is a soil layer. 16. The fixed irrigation landscape growing system of claim 1 , in which the irrigation system is selected from a) the plurality of spaced irrigation pipes arranged above the water absorbent blanket and in which the average spacing between the irrigation pipes is at least 40 cm. 17. The fixed irrigation landscape growing system of claim 1 , in which the irrigation system is configured to supply, over at least one period of five consecutive days during the months of June, July and August an average quantity of irrigation water which is ≥3 L/m 2 per day and ≤15 L/m 2 per day. 18. The fixed irrigation landscape growing system of claim 1 , in which the water absorbent blanket has a thickness in the range 15 mm to 25 mm. 19. The fixed irrigation landscape growing system of claim 1 , in which the water absorbent blanket has the form of a continuous strip having a length which is ≤9 m and a width which is ≤2 m. 20. The fixed irrigation landscape growing system of claim 1 , in which the landscape growing system is a grass covered portion having an area of at least 10000 m 2 . 21. A method of irrigating a landscape growing system installed in a region selected from: a Köppen climate region BWh (warm desert climate), BWk (cold desert climate), BSh (warm semi-arid climate), BSk (cold semi-arid climate), Csa (warm Mediterranean climate), Csb (temperate Mediterranean climate), California and a Koppen zone Csb, Csa, BS and BW in California; wherein the landscape growing system comprises: a supporting substrate; a water absorbent blanket comprising needled mineral wool fibers and being arranged above the supporting substrate, in which at least 50% of the fibers by number of the needled mineral wood blanket are orientated at an angle of ≤20° with respect to the major surface of the needled mineral wood blanket; a growing medium arranged above the water absorbent blanket; and a fixed irrigation system; wherein the method comprises supplying an average quantity of irrigation water which is ≥3 L/m 2 per day and ≤15 L/m 2 per day to the landscape growing system through the irrigation system over at least one period of five consecutive days during the months of June, July and August. 22. The method of irrigating a landscape growing system of claim 21 , in which the irrigation system is selected from: a) an irrigation system comprising a plurality of spaced irrigation pipes arranged above the water absorbent blanket and b) an irrigation system comprising a plurality of spaced circle irrigation sprinklers arranged above the growing medium.