Described herein is a stable dry composition comprising a compound with herbicide activity located on a carrier compound and a compound with amphiphilic properties coating at least part or all of the compound with herbicide activity and carrier compound. Methods of manufacture and application of the dry composition are also described along with storage stable plant and herbicide compositions and methods of co-administration of combination plant and herbicide compositions.

The present invention relates to a method and a use of a composition, in each case for reducing the emission of environmentally harmful climate gases methane and/or carbon dioxide from farm manures during its storage. In some examples, the method and use involves bringing a composition comprising calcium cyanamide into contact with the farm manure.

The present invention relates to a method and a use of a composition, in each case for reducing the emission of environmentally harmful climate gases methane and/or carbon dioxide from farm manures during its storage. In some examples, the method and use involves bringing a composition comprising calcium cyanamide into contact with the farm manure.

A transport system can include a first chamber having a body that is configured to fully enclose a biodegradable container placed within the first chamber, the biodegradable container having food waste therein, and the biodegradable container being sealed from the ambient environment, and a disinfection system being configured to disinfect an object placed within the body. The transport system can include a second chamber having a composting system, the composting system being configured to begin to compost an object placed within the second chamber, and an enclosure that houses the first chamber and the second chamber. The first chamber, and the second chamber can be configured to be placed within a cargo space of a vehicle.

The present invention concerns a method for recovering phosphorus by thermochemical reaction of a phosphorus-containing material such as an alternative fuel, for example, in the presence of calcium-containing particles in a moving bed reactor and subsequent separation of fines enriched with phosphorus from the moving bed reactor. Furthermore, the present invention concerns the use of a recyclable material obtained by the method as a fertilizer or fertilizer additive.

The present invention concerns a method for recovering phosphorus by thermochemical reaction of a phosphorus-containing material such as an alternative fuel, for example, in the presence of calcium-containing particles in a moving bed reactor and subsequent separation of fines enriched with phosphorus from the moving bed reactor. Furthermore, the present invention concerns the use of a recyclable material obtained by the method as a fertilizer or fertilizer additive.

The present invention concerns a method for recovering phosphorus by thermochemical reaction of a phosphorus-containing material such as an alternative fuel, for example, in the presence of calcium-containing particles in a moving bed reactor and subsequent separation of fines enriched with phosphorus from the moving bed reactor. Furthermore, the present invention concerns the use of a recyclable material obtained by the method as a fertilizer or fertilizer additive.

The present invention relates to a polyphosphoric acid calcium magnesium fertilizer prepared by using phosphoric acid and phosphorus tailings as raw materials and a preparation method therefor. The polyphosphoric acid calcium magnesium fertilizer is prepared by using phosphorus tailings and phosphoric acid as raw materials. Based on P.sub.2O.sub.5, MgO and CaO, in the polyphosphoric acid calcium magnesium fertilizer: total phosphorus is 50-68%, effective phosphorus is 47-66%, total magnesium is 5-18%, effective magnesium is 4-15%, total calcium is 11-20%, effective calcium is 10-18%, and all are expressed in mass percentage. Based on P.sub.2O.sub.5, the polymerization rate of the polyphosphoric acid calcium magnesium fertilizer is ≥50%. The present invention also provides a preparation method for the fertilizer. The phosphorus in the product prepared by the invention has sustained-release properties. The fertilizer is well suited for crops requiring large amounts of calcium and magnesium.

Biostimulant composition. The invention relates to a biostimulant composition for plants, comprising (i) micronized zeolite and (ii) micronized calcareous algae, for instance lithothamnion. The mass ratio between the zeolite content and the content of calcareous algae is between 0.1 and 10, preferably between 0.25 and 4. The particle size of the zeolite or, respectively, of the calcareous algae is such that the diameter D90 is less than 20 μm, preferably less than 10 μm, or even less than 4 μm, when it is measured by laser particle size analysis in accordance with the standard ISO 13320:2020 on the basis of the Fraunhofer scattering model. The zeolite and the calcareous algae together represent at least 60% by mass, preferably at least 75% by mass and even more preferably at least 90% by mass, of the solid matter of the composition.

Biostimulant composition. The invention relates to a biostimulant composition for plants, comprising (i) micronized zeolite and (ii) micronized calcareous algae, for instance lithothamnion. The mass ratio between the zeolite content and the content of calcareous algae is between 0.1 and 10, preferably between 0.25 and 4. The particle size of the zeolite or, respectively, of the calcareous algae is such that the diameter D90 is less than 20 μm, preferably less than 10 μm, or even less than 4 μm, when it is measured by laser particle size analysis in accordance with the standard ISO 13320:2020 on the basis of the Fraunhofer scattering model. The zeolite and the calcareous algae together represent at least 60% by mass, preferably at least 75% by mass and even more preferably at least 90% by mass, of the solid matter of the composition.