The present invention relates to methods for the screening, identification and/or application of microorganisms and/or compositions of use in imparting beneficial properties to plants, and microorganisms and compositions identified therefrom.

The present invention relates to methods for the screening, identification and/or application of microorganisms and/or compositions of use in imparting beneficial properties to plants, and microorganisms and compositions identified therefrom.

The present invention provides methods for the production of plant inbred seed, or for the production of plant hybrid seed, wherein the seed obtained exhibits altered and/or improved germination properties, in particular improved germination properties such as enhanced seed germination rate, enhanced seed germination capacity and/or enhanced seedling fresh weight. The present invention also provides for the use of periclinal chimera plants for improving germination properties of seed.

Disclosed are compositions and methods that include or utilize plant growth promoting rhizobacteria (PGPR) for improving growth and health in plants and animals. The compositions and methods include or utilize a plant growth promoting rhizobacteria (PGPR) that expresses a protein associated with pectin metabolism, and a saccharide comprising pectin or a pectin-related saccharide.

Disclosed are compositions and methods that include or utilize plant growth promoting rhizobacteria (PGPR) for improving growth and health in plants and animals. The compositions and methods include or utilize a plant growth promoting rhizobacteria (PGPR) that expresses a protein associated with pectin metabolism, and a saccharide comprising pectin or a pectin-related saccharide.

The purpose of the present invention is to provide a breeding method for a plant having a blue flower color with a simpler blue color development controlling technique, without requiring complex mechanisms for blue color development that have been previously presented and techniques reproducing such mechanisms. Delphinidin-based anthocyanins, in which the both 3′ and 5′-positions of the anthocyanin B-ring have been glycosylated, and flavone glycosides or flavonol glycosides as copigment are made to coexist in the cells of flower organ such as petals.

The present disclosure provides the integration of exogenous polymers to microbes to confer increased stability and viability for an extended shelf life of the desired microbes (e.g., bacteria), as compared to those microbes lacking the exogenous polymers. The microbes include transgenic microbes, non-transgenic microbes, and non-intergeneric remodeled microbes. The utilization of the taught microbial products will enable a significant expansion of the typical shelf life of microbial compositions. The microbes comprising exogenous polymers described herein are able to be combined with other agriculturally beneficial compositions. Furthermore, the disclosure provides for the addition of exogenous microbial biofilms to the aforementioned compositions.

Endophytic microbial strains as biocatalysts isolated from fresh plant samples, compositions, and methods of use thereof to enhance the growth and/or yield of a plant in the presence of reduced synthetic nitrogen fertilizers are provided. Endophytic microbial strains serve as biocatalysts to solubilize organic (proteinaceous) nitrogen otherwise unavailable to plants for their nutritional needs. Thus defined, biocatalysts will serve to replace synthetic nitrogen fertilizers. Also provided are materials and methods for inoculating plants with these biocatalysts at carefully selected inoculum densities to reliably reduce the amount of nitrogen fertilizer by 50% thus accomplishing optimal yields in technically and cost-effective manner.

Endophytic microbial strains as biocatalysts isolated from fresh plant samples, compositions, and methods of use thereof to enhance the growth and/or yield of a plant in the presence of reduced synthetic nitrogen fertilizers are provided. Endophytic microbial strains serve as biocatalysts to solubilize organic (proteinaceous) nitrogen otherwise unavailable to plants for their nutritional needs. Thus defined, biocatalysts will serve to replace synthetic nitrogen fertilizers. Also provided are materials and methods for inoculating plants with these biocatalysts at carefully selected inoculum densities to reliably reduce the amount of nitrogen fertilizer by 50% thus accomplishing optimal yields in technically and cost-effective manner.

A method for remediating developmentally delayed plants within a field of crops using at least one work vehicle during a field operation. The method comprises identifying delayed plants within the field with a sensor on the work vehicle and generating, with a processor, location data associated with the location of the delayed plant with the field. Upon arriving at the location of the delayed plant with the work vehicle, the delayed plant is remediated.