Disclosed is a potassium humate sulfur compound granule and process for making the same granule. The potassium humate sulfur compound granule including a potassium humate component and an elemental sulfur component at a ratio of about 1:20; where the potassium humate component of the granule fully solubilizes upon application to a desired site and enhances conversion of the sulfur component into sulfate by at least about 15% as compared to elemental sulfur alone.

A method for preparing a soil conditioner comprises the following steps: swelling alginates in distilled water to obtain alginate gel; adding chitosan to prepare an alginate/chitosan composite material; reacting with N-isopropylacrylamide, and dissolving the obtained reaction product in water to obtain an aqueous phase; dissolving a soil conditioning material in a solvent to obtain an oil phase; mixing the oil phase with the aqueous phase, and performing stirring reaction and centrifugal separation to prepare the product. Compared with the prior art, the present invention implements conditioning and intelligent controlled release of soil by means of molecular structure design and composition control.

Methods for increasing soil stabilization utilizing an anionic surfactant and a solution. Varying amounts of the anionic surfactant sodium dodecyl sulfate (“SDS”) is added to soils along with a solution of calcium chloride. A mixing procedure is then used to mix the SDS-soil matrix with the calcium chloride solution. The micelles surround the soil particles, creating a matrix, and then the calcium ions of the calcium chloride solution bonds the micelle complex together. The resulting calcium dodecyl sulfate (“CDS”) complex is very hard, relatively insoluble, and very strong. This process can be reversed by exposing the CDS complex to seawater. The sodium ions of the seawater exchange with the calcium ions of the CDS complex reforming the SDS surfactant.

Disclosed is a potassium humate sulfur compound granule and process for making the same granule. The potassium humate sulfur compound granule including a potassium humate component and an elemental sulfur component at a ratio of about 1:20; where the potassium humate component of the granule fully solubilizes upon application to a desired site and enhances conversion of the sulfur component into sulfate by at least about 15% as compared to elemental sulfur alone.

Disclosed is a compound for capturing carbon dioxide and improving the arability of soil. The compound includes a quantity of calcium hydroxide and a quantity of basalt. The calcium hydroxide improves the arability of soil by raising soil alkalinity and acting as a pH buffer to prevent it from becoming too acidic. The quantity of basalt sequesters carbon dioxide by providing reactive minerals capable of facilitating carbon mineralization. Also disclosed are methods of making and experimental results demonstrating the compound's efficacy.

The bioorganic soil conditioner includes biochar derived from plant waste and a mix of chemicals including sulfonated naphthalene formaldehyde, urea-formaldehyde and polyvinyl alcohol. The bioorganic soil conditioner is made by infusing biochar from lignin-rich plant waste with the mix of chemicals. The bioorganic soil conditioner improves soil aggregation and moisture and nutrient retention capacity. Thus, the bioorganic soil conditioner may be added to soil to improve crop production and stabilize soil, for example, in conditions of high wind or desertification.

The present disclosure provides compositions and methods for reducing emissions of deleterious atmospheric gases and/or precursors thereof from a flooded ecosystem comprising: one or more small molecules that reduce the production of one or more deleterious atmospheric gases and/or precursors thereof and one or more agriculturally suitable carriers.

Provided is a type of rhizobium with the classified nomenclature of Bradyrhizobium sp. KTMS 0001 or Bradyrhizobium sp. KTMS 0002, and the deposit number of CCTCC No. M2017580 or CCTCC No. M2017581. Also provided are a bacterial preparation containing the rhizobium, a method for restoring rare-earth tailings soil and a use of the rhizobium.

A method of plant growth promotion includes the steps of mixing synthetic high aluminum zeolite A with soil around seeds of a desired plant. The zeolite A may be ion exchanged with nutrients including a plant growth promoter chosen from the group consisting of copper, zinc and mixtures thereof included in the amount of at least about 0.04 meq/g. Preferably, the zeolite A has a moisture reserve capacity of at least about 30 wt %. Preferred synthetic zeolite A compositions may have at least double the ion exchange capacity of Clinoptilolite.

The present invention provides a remediation method for degradation of cadmium in soil. The specific steps are as follows: step 1, determining the content of cadmium in the soil; step 2, crushing and sieving soil from a soil surface, and weighing; step 3, wetting the soil, and removing part of cadmium in the soil to obtain semi-remediated soil; step 4, mixing the semi-remediated soil with a remediation agent, and allowing to stand to obtain improved soil; and step 5, planting Bidens pilosa in the improved soil, and when a growing season is finished, uprooting, and ashing to obtain finished soil. The present invention utilizes anode and cathodes and a remediation agent to treat the cadmium contaminated soil, and plants Bidens pilosa in the soil to achieve a joint effect of electrodynamic remediation, chemical remediation, microbial remediation and phytoremediation to remediate the cadmium contaminated soil.