Two-color net for protecting fruit against damage caused by direct solar radiation and high temperatures, used in combination and/or separately, which is made with two monofilaments that are pearl, blue or grey in color with a thickness of 0.26-0.32 mm.

Disclosed is an anti-weed sheet manufactured by forming webs. The web is formed of polyolefin-based staple fibers which are at least one selected from the group consisting of polyethylene staple fibers, polypropylene staple fibers, and polyisobutylene staple fibers. The sheet is bonded integrally by the needle punching by forming the webs, and the needle punching is performed in the order of pre-needle punching, low-speed needle punching, high-speed needle punching and low-speed needle punching to uniformly bridging the surface and the inside of the formed webs and improve a binding force. At least one surface of the sheet is modified by heat treatment through hot air or a heating drum.

A green ECO mat (GECOMAT) for aeroponics and hydroponics comprises at least one fabric green ECO mat of cultivation being woven to have arrayed multiple 3D-coniform-shaped (alike pyramid shape) chambers, and at least one floating member connects to the fabric green ECO mat. The chambers of the mat are positioned seed, and the floating member floats the mat in a space full with fluid in the nature to collect moisture in the fluid to provide for germination of the seed and growth of the plant. The harvesting means moves back the floating member and the mat when growth of the plant is completed.

A netting material having a length dimension and a width dimension much smaller than the length dimension comprises a flap folded from a fold region of the netting material along a longitudinal fold line at a distance from a longitudinal edge of the netting. The flap therefore comprises at least two layers of the netting material folded together. One or more eyelets are provided in the flap.

The present invention provides a method for rice cultivation via drip irrigation under a plastic film, comprising seed preparation, land preparation, sowing, seedling management, irrigation management, fertilization management, pest control and other steps, wherein seeding density of the sowing is 33300-36000 holes/mu, preferably 33300 holes/mu, or the seeding density is 30500-32600 holes/mu, preferably 30500 holes/mu. Previously, the conventional film with width of 105 cm or 145 cm is adopted for cotton culture stage in Xinjiang, but these films have following disadvantages: lower land utilization rate, resulting in relatively low seeding density, and difficulty in the process of adjusting row spacing and increasing seeding density, lower ground coverage rate, larger area of open ground, causing more weed relatively. Therefore, using wide film cultivation obtains relatively high yield if other planting conditions are the same.

A method and apparatus for cultivating vegetation at an arid location includes rooting immature vegetation in a mat combined with a super absorbent polymer (SAP) and, in embodiments, fertilizer, sand, and/or soil; placing the mat at the arid location; covering the mat with a perforated, transparent or semi-transparent cover; collecting urine in a water purification system; and providing purified water extracted from the urine to the mat. A water barrier can be placed below the mat. The cover can be placed on or suspended above the mat. SAP, seeds, and/or additional water barriers can be placed between mats in a stack. The opacity of the cover can be increased to emulate shade from natural vegetation. A water distribution system can be included for continued support of the vegetation, and can include a water reservoir and/or at least one solar still.

Reticular structure made of material including: a biodegradable polymeric composition in a percentage by weight greater than 90% with respect to the total weight of the material of the reticular structure and a stabilizing additive configured, in use, for reducing the degradation of the reticular structure. A process for making said reticular structure and to a use thereof.

A biodegradable layered composite includes at least a first layer and at least a second layer. The first layer of the biodegradable layered composite includes a paper layer having a top surface opposite a substantially planar and parallel bottom surface. The second layer of the biodegradable layered composite includes a non-woven polymer layer having a top surface opposite a substantially planar and parallel bottom surface. The non-woven polymer layer is bonded to the paper layer, forming the biodegradable layered composite. The biodegradable layered composite allows for at least one root of at least one seed to penetrate and grow through both of the paper layer and the non-woven polymer layer of the biodegradable layered composite.

The invention relates to a planar textile drainage element for preventing moisture to accumulate around plants, as well as to the use thereof.

The invention relates to a planar textile drainage element for preventing moisture to accumulate around plants, as well as to the use thereof.