Disclosed are a method which provides microbial dissolution of organominerals such as organic wastes or chicken manure ashes burned in thermal power plants and return these ashes to the economy with the goal of zero waste with the created bio products and a system using this method.

Whole cell based biostimulant compositions and methods for improving agricultural productivity the compositions including: a microbial consortium having gammaproteobacterial methanotroph. As a result of these methanotrophs, the biostimulant composition enables plant performance improvement, utilization of methane, and facilitates improved nitrogen fixation in plants. The composition also helps in reducing the need of external chemical fertilizers for plant growth, development, performance and/or survival.

The present disclosure relates to protein hydrolysate based biostimulant composition derived from methanotrophic bacteria, and methods for enhancing agricultural productivity. In particular, the compositions disclosed herein comprise a protein-derived component in an amount of about 30% or less with respect to weight of the composition, wherein said protein-derived component is obtained from a methanotrophic bacterium. The present biostimulant composition finds applications in methods for improving plant performance along with methods for reducing the need of external chemical fertilizer-based inputs for plant growth.

Disclosed are compositions and methods of making a liquid fertilizer additive of biodegradable polymeric and/or oligomeric nitrification inhibitors comprised of utilizing a non-aqueous polar, aprotic organo liquid (NAPAOL) as the reaction medium for the reaction of aldehyde(s) with cyano-containing nitrification inhibitors that have one or more aldehyde reactive groups selected from the group consisting of a) primary amines, b) secondary amines, c) amides, d) thiols, e) hydroxyls and f) phenols.

Disclosed are compositions and methods of making a liquid fertilizer additive of biodegradable polymeric and/or oligomeric nitrification inhibitors comprised of utilizing a non-aqueous polar, aprotic organo liquid (NAPAOL) as the reaction medium for the reaction of aldehyde(s) with cyano-containing nitrification inhibitors that have one or more aldehyde reactive groups selected from the group consisting of a) primary amines, b) secondary amines, c) amides, d) thiols, e) hydroxyls and f) phenols.

In some embodiments, the systems and methods described herein are directed to using microbes such as algae to capture carbon in multiple stages. In some embodiments, during an initial algae growth phase, the system is configured to enable algae to capture carbon dioxide. In some embodiments, a method includes using indigenous algae and/or other microbes from the same environment where the algae and/or other microbes will eventually be distributed. In some embodiments, the initial algae growth phase is a first carbon capture phase. In some embodiments, as the algae grows the carbon dioxide is consumed by the algae while oxygen is released. In some embodiments, once the growth of the algae reaches a maximum capacity of the system, the algae must be expelled from the system to make room for new algae growth which in turn allows for further carbon removal from the atmosphere.

In some embodiments, the systems and methods described herein are directed to using microbes such as algae to capture carbon in multiple stages. In some embodiments, during an initial algae growth phase, the system is configured to enable algae to capture carbon dioxide. In some embodiments, a method includes using indigenous algae and/or other microbes from the same environment where the algae and/or other microbes will eventually be distributed. In some embodiments, the initial algae growth phase is a first carbon capture phase. In some embodiments, as the algae grows the carbon dioxide is consumed by the algae while oxygen is released. In some embodiments, once the growth of the algae reaches a maximum capacity of the system, the algae must be expelled from the system to make room for new algae growth which in turn allows for further carbon removal from the atmosphere.

The present invention is a plant growth promoter containing one or more seed shell components of plant selected from Palmae Elaeis, Leguminosae Faboideae, Juglandaceae, Rosaceae Prunus, and Oleeae.

The present invention addresses to the production of an organomineral fertilizer consisting of a mineral matrix, drilling gravel and an organic matrix, algae biomass. Algae are cultivated using drilling gravel suspended in the culture medium together with their ability to grow by absorbing CO.sub.2, and, in the case of cyanobacteria, they fix atmospheric nitrogen in their biomass. The gravel provides a set of additional nutrients present in its composition to the conventional nutritional chemical compounds for algae. In this way, the gravel can be mixed with the culture medium in the cultivation of algae, generating the organic matrix to be formulated and commercialized in the national and international agricultural market as an organomineral fertilizer, and, in the case originating from the organic matrix of cyanobacteria, there is the enrichment with nitrogen obtained biologically, without the high energy expenditure typical of traditional synthetic nitrogen fertilizers. In this way, the present invention enables the disposal with a minimum of environmental impact and constitutes a satisfactory solution for the disposal of gravel for oil E&P.

The present invention addresses to the production of an organomineral fertilizer consisting of a mineral matrix, drilling gravel and an organic matrix, algae biomass. Algae are cultivated using drilling gravel suspended in the culture medium together with their ability to grow by absorbing CO.sub.2, and, in the case of cyanobacteria, they fix atmospheric nitrogen in their biomass. The gravel provides a set of additional nutrients present in its composition to the conventional nutritional chemical compounds for algae. In this way, the gravel can be mixed with the culture medium in the cultivation of algae, generating the organic matrix to be formulated and commercialized in the national and international agricultural market as an organomineral fertilizer, and, in the case originating from the organic matrix of cyanobacteria, there is the enrichment with nitrogen obtained biologically, without the high energy expenditure typical of traditional synthetic nitrogen fertilizers. In this way, the present invention enables the disposal with a minimum of environmental impact and constitutes a satisfactory solution for the disposal of gravel for oil E&P.