Methods for growing plants and seeds 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.

Methods for growing plants and seeds 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.

An eco-friendly netting for growing and/or harvesting sod and/or plants is disclosed herein. The eco-friendly netting includes a plurality of fibers arranged in a woven configuration or a substantially non-woven configuration. Each of the plurality of fibers is formed from a substantially natural material, which may also be biodegradable. The eco-friendly netting may be preseeded. The eco-friendly netting may be treated or processed with anti-rot agents, degrading accelerators, nutrients, fertilizers, pesticides, fungicides, algaecides, herbicides, water absorption/retention enhancers or any combination thereof. Methods of growing sod and harvesting sod, which utilize the eco-friendly netting, are also disclosed herein. In one or more embodiments, the eco-friendly netting may be treated or processed to increase or decrease its functional longevity.

An eco-friendly netting for growing and/or harvesting sod and/or plants is disclosed herein. The eco-friendly netting includes a plurality of fibers arranged in a woven configuration or a substantially non-woven configuration. Each of the plurality of fibers is formed from a substantially natural material, which may also be biodegradable. The eco-friendly netting may be preseeded. The eco-friendly netting may be treated or processed with anti-rot agents, degrading accelerators, nutrients, fertilizers, pesticides, fungicides, algaecides, herbicides, water absorption/retention enhancers or any combination thereof. Methods of growing sod and harvesting sod, which utilize the eco-friendly netting, are also disclosed herein. In one or more embodiments, the eco-friendly netting may be treated or processed to increase or decrease its functional longevity.

The inventive subject matter provides a method for the incorporation of colored photoluminescent materials to be sprayed on to plants and soils. The incorporation of colored photoluminescent materials assists the spray operator through the use of black lights allowing for more precise low right or nighttime spray and seeding operations. More specifically, this invention relates to a colored photoluminescent adjuvant to be applied to targeted crops, plants and seeds to assist in the low light or nighttime application of bioactive agents, such as chemicals and pesticides. The colored photoluminescent adjuvant can be applied as a solution or a foam.

The inventive subject matter provides a method for the incorporation of colored photoluminescent materials to be sprayed on to plants and soils. The incorporation of colored photoluminescent materials assists the spray operator through the use of black lights allowing for more precise low right or nighttime spray and seeding operations. More specifically, this invention relates to a colored photoluminescent adjuvant to be applied to targeted crops, plants and seeds to assist in the low light or nighttime application of bioactive agents, such as chemicals and pesticides. The colored photoluminescent adjuvant can be applied as a solution or a foam.

A fixed irrigation landscape growing system comprises: a supporting substrate; a water absorbent blanket arranged above the substrate; and a growing medium, notably a soil layer, arranged above the water absorbent blanket. Irrigation is provided by irrigation pipes or by sprinklers.

A fixed irrigation landscape growing system comprises: a supporting substrate; a water absorbent blanket arranged above the substrate; and a growing medium, notably a soil layer, arranged above the water absorbent blanket. Irrigation is provided by irrigation pipes or by sprinklers.

The present invention provides a longitudinally split immature filler separated from a rhizome(LSITR), a cluster of multiple in vitro shoots (CMIT), a cluster of stem segments containing shoot primordia (CSSSP) and an in vitro Tiller of Miscanthus x giganteus (Giant miscanthus) and thier uses in propagating Miscanthus x giganteus (Giant miscanthus).

The present invention provides a longitudinally split immature filler separated from a rhizome(LSITR), a cluster of multiple in vitro shoots (CMIT), a cluster of stem segments containing shoot primordia (CSSSP) and an in vitro Tiller of Miscanthus x giganteus (Giant miscanthus) and thier uses in propagating Miscanthus x giganteus (Giant miscanthus).