A method comprising (a) obtaining rock fines comprising at least one of basalt, metabasalt, diabase, rhyolite, andesite, meta-andesite, granite, graphite, talc, silica, sand, perlite, or a combination thereof, (b) obtaining a binder, (c) obtaining a material comprising at least one of Ca, Mg, S, B, Cl, Cu, Fe, Mn, Mo, Ni, Zn, or a combination thereof, and (d) combining ingredients comprising the rock fines, the binder, and the material.

To obtain an oxygen clathrate hydrate containing the dissolved oxygen that is maintained in a state of being dissolved in a solution even when being heated to 100° C.

To obtain an oxygen clathrate hydrate containing the dissolved oxygen that is maintained in a state of being dissolved in a solution even when being heated to 100° C.

Embodiments of a system and method are described. In one embodiment, the system generates ions for use in treating vegetation to optimize growth of the vegetation. The system includes an ion generation region having a pair of dissimilar metal plates. The ion generation chamber receives a liquid and routes the liquid past the dissimilar metal plates to capture ion transfer between the dissimilar metal plates. The ions form a charged solution. The system also includes a collection region having a collection bed for storing the charged solution, and a fertigation region for dispersing the liquid. Other embodiments of the system are also described.

Embodiments of a system and method are described. In one embodiment, the system generates ions for use in treating vegetation to optimize growth of the vegetation. The system includes an ion generation region having a pair of dissimilar metal plates. The ion generation chamber receives a liquid and routes the liquid past the dissimilar metal plates to capture ion transfer between the dissimilar metal plates. The ions form a charged solution. The system also includes a collection region having a collection bed for storing the charged solution, and a fertigation region for dispersing the liquid. Other embodiments of the system are also described.

The present invention relates to the Bio-Phosphate fertilizer formulation for crop nutrition, crop productivity, and soil fertility. It particularly relates to the Bio-Phosphate fertilizer formulation which comprises phosphate solubilizing and plants growth-promoting microorganisms, rock phosphate, bentonite along with minerals, macro, and micronutrients. It specifically relates to the Bio-Phosphate fertilizer formulation containing Phosphate Solubilizing Microorganisms are selected from a combination of Phosphate Solubilizing bacteria selected from Bacillus spp., & Pseudomonas spp., and Phosphate Solubilizing fungi selected from Aspergillus spp., The invention further relates to the process for the preparation of Bio-Phosphate fertilizer formulation for sustainable agriculture along with increasing the crop nutrition, crop productivity, and soil fertility.

The present invention relates to the Bio-Phosphate fertilizer formulation for crop nutrition, crop productivity, and soil fertility. It particularly relates to the Bio-Phosphate fertilizer formulation which comprises phosphate solubilizing and plants growth-promoting microorganisms, rock phosphate, bentonite along with minerals, macro, and micronutrients. It specifically relates to the Bio-Phosphate fertilizer formulation containing Phosphate Solubilizing Microorganisms are selected from a combination of Phosphate Solubilizing bacteria selected from Bacillus spp., & Pseudomonas spp., and Phosphate Solubilizing fungi selected from Aspergillus spp., The invention further relates to the process for the preparation of Bio-Phosphate fertilizer formulation for sustainable agriculture along with increasing the crop nutrition, crop productivity, and soil fertility.

Disclosed herein are fertilizer compositions with enhanced sulphate release, methods of making the fertilizer compositions and methods of using the fertilizer compositions. The disclosed fertilizer compositions combine elemental sulphur with small amounts (relative to the sulphur) of humic acid to enhance delivery of sulphates to soil. The humic acid is added as a humic additive, which may comprise 40% or more humic acid. In many embodiments, the presence of small amounts of humic additive enhances the release of sulphate from soil containing the fertilizer composition from about 1.5- to 4-fold over fertilizer compositions lacking the humic additive.

Disclosed herein are fertilizer compositions with enhanced sulphate release, methods of making the fertilizer compositions and methods of using the fertilizer compositions. The disclosed fertilizer compositions combine elemental sulphur with small amounts (relative to the sulphur) of humic acid to enhance delivery of sulphates to soil. The humic acid is added as a humic additive, which may comprise 40% or more humic acid. In many embodiments, the presence of small amounts of humic additive enhances the release of sulphate from soil containing the fertilizer composition from about 1.5- to 4-fold over fertilizer compositions lacking the humic additive.

Disclosed herein are fertilizer compositions with enhanced sulphate release, methods of making the fertilizer compositions and methods of using the fertilizer compositions. The disclosed fertilizer compositions combine elemental sulphur with small amounts (relative to the sulphur) of humic acid to enhance delivery of sulphates to soil. The humic acid is added as a humic additive, which may comprise 40% or more humic acid. In many embodiments, the presence of small amounts of humic additive enhances the release of sulphate from soil containing the fertilizer composition from about 1.5- to 4-fold over fertilizer compositions lacking the humic additive.