The present disclosure provides non-intergeneric remodeled microbes that are able to fix atmospheric nitrogen and deliver such to plants in a targeted, efficient, and environmentally sustainable manner. The utilization of the taught microbial products will enable farmers to realize more productive and predictable crop yields without the nutrient degradation, leaching, or toxic runoff associated with traditional synthetically derived nitrogen fertilizer, by mitigating or eliminating the need for exogenous nitrogen-containing fertilizers. The remodeled microbes have unique colonization and nitrogen fixation abilities, which enable the microbes to deliver nitrogen to a cereal plant in a spatially targeted (e.g. rhizospheric) and temporally targeted (e.g. during advantageous stages of plants life cycle) manner. The microbes are able to replace the standard agricultural practice of sidedressing and enable a more environmentally sustainable form of farming. The present disclosure also provides methods of using non-intergeneric remodeled microbes, for example, to fix atmospheric nitrogen by reducing or eliminating the need for exogenous nitrogen-containing fertilizers, to increase yield, and to reduce infield variability in the yield.

A microbial inoculant composition includes aquatic bacterial species. In some embodiments, the microbial inoculant composition includes at least one of an aquatic Pseudomonas spp. and a Clostridium spp.

A microbial inoculant composition includes aquatic bacterial species. In some embodiments, the microbial inoculant composition includes at least one of an aquatic Pseudomonas spp. and a Clostridium spp.

A microbial inoculant composition includes aquatic bacterial species. In some embodiments, the microbial inoculant composition includes at least one of an aquatic Pseudomonas spp. and a Clostridium spp.

The disclosure relates to bacillus having an effect of inducing corn to resist Northern leaf blight and applications of the bacillus. The bacillus having an effect of inducing corn to resist Northern corn leaf blight is Bacillus megaterium which was deposited on Apr. 16, 2019 with a deposit number of CGMCC No. 17573. The Bacillus megaterium of the disclosure can induce corn to generate resistance to Northern corn leaf blight during seed germination and corn growth to activate the immune response of corns and stimulate immune control of Northern leaf blight of corn. The method described herein is long in coming does not pollute environment and soil, is a green, simplified and new control method of Northern leaf blight of corn, and has wide application and popularization prospect.

The disclosure relates to bacillus having an effect of inducing corn to resist Northern leaf blight and applications of the bacillus. The bacillus having an effect of inducing corn to resist Northern corn leaf blight is Bacillus megaterium which was deposited on Apr. 16, 2019 with a deposit number of CGMCC No. 17573. The Bacillus megaterium of the disclosure can induce corn to generate resistance to Northern corn leaf blight during seed germination and corn growth to activate the immune response of corns and stimulate immune control of Northern leaf blight of corn. The method described herein is long in coming does not pollute environment and soil, is a green, simplified and new control method of Northern leaf blight of corn, and has wide application and popularization prospect.

The present invention relates to a composition of effective biological control agents against eggs and/or larvae and/or pupae and/or adult insects' stages, with a broad-spectrum action. The invention is composed of sporulant entomopathogenic bacteria, entomopathogenic fungi, a limonoid, Efficient Microorganisms (EMs), a humic organic amendment in a liquid suspension, and a process for obtaining the composition.

The present invention relates to a composition of effective biological control agents against eggs and/or larvae and/or pupae and/or adult insects' stages, with a broad-spectrum action. The invention is composed of sporulant entomopathogenic bacteria, entomopathogenic fungi, a limonoid, Efficient Microorganisms (EMs), a humic organic amendment in a liquid suspension, and a process for obtaining the composition.

The present invention relates to a composition of effective biological control agents against eggs and/or larvae and/or pupae and/or adult insects' stages, with a broad-spectrum action. The invention is composed of sporulant entomopathogenic bacteria, entomopathogenic fungi, a limonoid, Efficient Microorganisms (EMs), a humic organic amendment in a liquid suspension, and a process for obtaining the composition.

The use of biological fertilizer combined with microbes can be used instead of herbicides, pesticides and synthetic fertilizers. Silk and trehalose dry films can be used as seed coatings to localize and quantify delivery of plant microbes to mitigate plant stress and soil salinity. Similar microbes can be delivered using the same technology.