The invention taught is a method and apparatus to mix a special polymer, hot water or other hot water material containing additives and a special mixture of dry growing substances mixed in a particular way so that they may be applied to structures such as to ceilings, walls, and any grade of vertical slants, commercial roofs, courtyards, indoor and outdoor applications. The purpose is to coat any surface and grow any plant for any reason be it erosion control, beautification of an area. The invention would help in reforestation after fires and such. This invention has a wide range of applications and so it is impossible to limit it to just one of these applications. Green parking lots and green areas that before could not be made green is just one area for the invention.

The invention taught is a method and apparatus to mix a special polymer, hot water or other hot water material containing additives and a special mixture of dry growing substances mixed in a particular way so that they may be applied to structures such as to ceilings, walls, and any grade of vertical slants, commercial roofs, courtyards, indoor and outdoor applications. The purpose is to coat any surface and grow any plant for any reason be it erosion control, beautification of an area. The invention would help in reforestation after fires and such. This invention has a wide range of applications and so it is impossible to limit it to just one of these applications. Green parking lots and green areas that before could not be made green is just one area for the invention.

A solar panel and irrigation arrangement support assembly includes first and second elongated rails each configured to be supported by a roof surface, the first elongated rail including a first longitudinally-extending channel, a plurality of vertical legs each having a first end coupled to at least one of the first and second elongated rails, and a second end, a support assembly coupled to the second end of the plurality of legs and configured to support a solar panel, and an irrigation arrangement that includes an irrigation line located within and extending along the first longitudinally-extending channel of the first elongated rail, and a fluid dispersion member in fluid communication with the irrigation line and configured to be located between the solar panel and plant matter supported by the roof surface such that the fluid dispersion member can provide fluid to the plant matter located directly vertically below the solar panel.

A floating wetland structure including a plurality of floating connected modules, each module having a frame that is at least partially hollow and a support structure adapted to support a plurality of containers for growing plants in the wetland.

A tufted geosynthetic lightweight ballast system for roof protection in which the system comprises a composite of one or more geotextiles tufted with one or more synthetic yarns.

A modular tray is provided for covering a portion of a surface with vegetation in a growth medium. The tray includes a pair of sidewalls, and a lower end wall and an upper end wall extending between and interconnecting the ends of the sidewalls such that the walls define a perimeter of the tray. A bottom wall extends between and interconnects the ends of the sidewalls and the lower end wall and extends in a plane disposed at an angle with the respect to the longitudinal axis of the sidewalls. Each of a plurality of platforms extends between and interconnects the sidewalls and are disposed at an angle with respect to the longitudinal axis of the sidewalls. Each of a plurality of risers extends between the rear edge of a platform to the front edge of an adjacent platform. The tray is water impermeable for accommodating the growth medium and vegetation.

A roof system that includes a roof covering in the form of planting areas, a water storage, a wind turbine, a water turbine, a solar panel, and a water heater. The roof system includes a plurality of ceramic chambers each including a wind turbine and a recess for housing a planter area.

A green roofing substrate brick comprises a water-permeable fabric box having an open top, and a solidified and non-compressed substrate in the box. The substrate comprises a water storage and drainage medium, and a binder solidifying the water storage and drainage medium.

An agricultural yield pod or agricultural yield pad with holed root membrane overlay. The agricultural yield pod encloses soil and vegetation in the soil. The top of the agricultural yield pod is closed except for at least one water and nutrition port and at least one vegetation growth port (or neck). The trunk of the vegetation passes through the at least one vegetation growth port (or neck). The agricultural yield pad is closed by the holed root membrane overlay and contains soil and vegetation in the soil. The trunk of the vegetation passes through the holes in the holed root membrane overlay. Root direction channels 38 may be beneath the overlay.

A system for growing plants in an urban setting is provided. The system includes a container. The container is made of a watertight material. The container includes a base and a sidewall extending from the base forming a receptacle within. The present invention further includes a cell layer. The cell layer includes a horizontal base and a plurality of vertical extending cell walls forming a plurality of water cells therebetween. A porous layer covers the cell layer. The porous layer includes a plurality of pores permitting molecules the size of water and smaller to pass through. The cell layer covered with the porous layer are disposed within the receptacle. The cell layer is then covered with soil.