A mineral organic fertilizer composition obtained by a process comprising the following steps performed homogeneously mix having a specific predetermined percentage (%) by weight relative to the total weight of the mineral organic fertilizer composition, specifically homogeneously mix a coal slag composition, the micronutrient solution with the manure composition to form a homogeneous mixture, in which, the homogeneous mixture is added with microbiological composition; composting the homogeneous mixture to form a foundation mixture; homogeneously mix the foundation mixture with the different mixing components comprising an NPK fertilizer and a mixture of micronutrient solutions and microbiological composition having a predetermined percentage (%) weight, and then drying or centrifuged.

A mineral organic fertilizer composition obtained by a process comprising the following steps performed homogeneously mix having a specific predetermined percentage (%) by weight relative to the total weight of the mineral organic fertilizer composition, specifically homogeneously mix a coal slag composition, the micronutrient solution with the manure composition to form a homogeneous mixture, in which, the homogeneous mixture is added with microbiological composition; composting the homogeneous mixture to form a foundation mixture; homogeneously mix the foundation mixture with the different mixing components comprising an NPK fertilizer and a mixture of micronutrient solutions and microbiological composition having a predetermined percentage (%) weight, and then drying or centrifuged.

A growth medium for fungus is obtained by: (a) treating a mixture of lignocellulosic biomass and water with at least one oxidizing agent and steam at a temperature in a range of from about 130 C to about 220 C for a period from about 5 seconds to about 10 hours; (b) periodically measuring a pH of the mixture for substantially an entire duration of the treating step; and (c) as necessary, based on the pH of the mixture measured in step (b), adjusting the pH of the mixture into a range of from about pH 4.5 to about pH 7.5 by adding abase to the mixture. A method for producing the growth medium for fungi and a method for cultivating fungi are also provided.

A growth medium for fungus is obtained by: (a) treating a mixture of lignocellulosic biomass and water with at least one oxidizing agent and steam at a temperature in a range of from about 130 C to about 220 C for a period from about 5 seconds to about 10 hours; (b) periodically measuring a pH of the mixture for substantially an entire duration of the treating step; and (c) as necessary, based on the pH of the mixture measured in step (b), adjusting the pH of the mixture into a range of from about pH 4.5 to about pH 7.5 by adding abase to the mixture. A method for producing the growth medium for fungi and a method for cultivating fungi are also provided.

Coating composition for applying to monocot plant structures from which roots and shoots are capable of growing, wherein the said coating composition comprises one or more organic materials having a melting point of ≧50° Centigrade and one or more additives, methods of making such compositions and coated monocot plant structures such as seeds of monocot plants.

Coating composition for applying to monocot plant structures from which roots and shoots are capable of growing, wherein the said coating composition comprises one or more organic materials having a melting point of ≧50° Centigrade and one or more additives, methods of making such compositions and coated monocot plant structures such as seeds of monocot plants.

The present disclosure provides integral nutrients to provide to crops in order to increase their yield. More particularly, the disclosure provides a granulated agricultural composition comprising a macronutrient in combination with a micronutrient, as well as methods for its preparation and use.

The present disclosure provides integral nutrients to provide to crops in order to increase their yield. More particularly, the disclosure provides a granulated agricultural composition comprising a macronutrient in combination with a micronutrient, as well as methods for its preparation and use.

The present invention relates to a fertilizing composition comprising a glass matrix, wherein said glass matrix comprises: at least three forming oxides, wherein said at least three forming oxides are SiO.sub.2, P.sub.2O.sub.5 and B.sub.2O.sub.3, and have a ratio by weight between SiO.sub.2/P.sub.2O.sub.5 comprised from 1 to 5 and a ratio by weight between SiO.sub.2/B.sub.2O.sub.3 comprised from 5 to 25;—at least one microelement; said fertilizing composition optionally also comprising citric acid and/or at least one humic substance. The subject matter of the present invention further relates to an aggregate comprising said fertilizing composition, at least one thickening agent and optionally at least one further microelement that is identical to or different from the at least one microelement present within the glass matrix of the fertilizing composition. The present invention also relates to a method for fertilizing herbaceous and/or arboreal crops which comprises administering said composition or said aggregate to the crops. Finally, the present invention regards the use of the fertilizing composition or of the aggregate comprising said composition to fertilize herbaceous and/or arboreal crops.

The present invention relates to a fertilizing composition comprising a glass matrix, wherein said glass matrix comprises: at least three forming oxides, wherein said at least three forming oxides are SiO.sub.2, P.sub.2O.sub.5 and B.sub.2O.sub.3, and have a ratio by weight between SiO.sub.2/P.sub.2O.sub.5 comprised from 1 to 5 and a ratio by weight between SiO.sub.2/B.sub.2O.sub.3 comprised from 5 to 25;—at least one microelement; said fertilizing composition optionally also comprising citric acid and/or at least one humic substance. The subject matter of the present invention further relates to an aggregate comprising said fertilizing composition, at least one thickening agent and optionally at least one further microelement that is identical to or different from the at least one microelement present within the glass matrix of the fertilizing composition. The present invention also relates to a method for fertilizing herbaceous and/or arboreal crops which comprises administering said composition or said aggregate to the crops. Finally, the present invention regards the use of the fertilizing composition or of the aggregate comprising said composition to fertilize herbaceous and/or arboreal crops.