Methods and compositions for controlling or reducing fungal spores in a plant or crop. The disclosure further provides for compositions and methods of improving turfgrass and/or ornamental grass quality.

Biomass compositions and methods for increasing sweetness of fruit of a fruiting plant by administering to the fruiting plant, seedling, or seed, a liquid composition treatment comprising a culture of microalgae cells are disclosed. The liquid composition may comprise pasteurized Chlorella cells only, Aurantiochytrium acetophilum HS399 cells only, or a combination of Chlorella and Aurantiochytrium acetophilum HS399 cells that are pasteurized at a temperature between 65 C.-90 C. The administration may comprise contacting soil in the immediate vicinity of the fruiting plant, seedling, or seed.

Disclosed are methods of enhancing plant growth, comprising treating plant seed or the plant that germinates from the seed with an effective amount of at least one chitooligosaccharide, wherein upon harvesting the plant exhibits at least one of increased plant yield measured in terms of bushels/acre, increased root number, increased root length, increased root mass, increased root volume and increased leaf area, compared to untreated plants or plants harvested from untreated seed.

The invention relates to methods, uses, systems, arrays, engineered nucleotide sequences and vectors for inhibiting bacterial population growth or for altering the relative ratio of sub-populations of first and second bacteria in a mixed population of bacteria. The invention is particularly useful, for example, for treatment of microbes such as for environmental, medical, food and beverage use. The invention relates inter alia to methods of controlling microbiologically influenced corrosion (MIC) or biofouling of a substrate or fluid in an industrial or domestic system.

The invention relates to methods, uses, systems, arrays, engineered nucleotide sequences and vectors for inhibiting bacterial population growth or for altering the relative ratio of sub-populations of first and second bacteria in a mixed population of bacteria. The invention is particularly useful, for example, for treatment of microbes such as for environmental, medical, food and beverage use. The invention relates inter alia to methods of controlling microbiologically influenced corrosion (MIC) or biofouling of a substrate or fluid in an industrial or domestic system.

The present invention relates to bacterial formulation in vegetable fiber materials, which can be employed by incorporation into soils and by treating seeds, as well as in nutrient in hydroponic systems, for the promotion of plant growth and/or the biologic control of diseases. Preferably, the formulation of the present invention employs coconut fiber. An advantage of the present invention is the possible replacement of turf and other organic or inorganic materials employed in the formulation of inoculants and of agents for the biologic control of bacteria and fungi by coconut fiber.

The present invention relates to bacterial formulation in vegetable fiber materials, which can be employed by incorporation into soils and by treating seeds, as well as in nutrient in hydroponic systems, for the promotion of plant growth and/or the biologic control of diseases. Preferably, the formulation of the present invention employs coconut fiber. An advantage of the present invention is the possible replacement of turf and other organic or inorganic materials employed in the formulation of inoculants and of agents for the biologic control of bacteria and fungi by coconut fiber.

The present invention relates to bacterial formulation in vegetable fiber materials, which can be employed by incorporation into soils and by treating seeds, as well as in nutrient in hydroponic systems, for the promotion of plant growth and/or the biologic control of diseases. Preferably, the formulation of the present invention employs coconut fiber. An advantage of the present invention is the possible replacement of turf and other organic or inorganic materials employed in the formulation of inoculants and of agents for the biologic control of bacteria and fungi by coconut fiber.

Biomass compositions and methods for decreasing bruising of fruit of a fruiting plant by administering to the fruiting plant, seedling, or seed, a liquid composition treatment comprising a culture of microalgae cells are disclosed. The liquid composition may comprise pasteurized Chlorella cells only, Aurantiochytrium acetophilum HS399 cells only, or a combination of Chlorella and Aurantiochytrium acetophilum HS399 cells that are pasteurized at a temperature between 65 C.-90 C. The administration may comprise contacting soil in the immediate vicinity of the fruiting plant, seedling, or seed.

The present disclosure provides novel agricultural microbial inoculant compositions for uses in promoting plant growth, plant productivity and/or soil quality. The novel microbial inoculant compositions comprise one or more microbial species, one or more urease inhibitors and/or one or more nitrification inhibitors. The present disclosure also provides fertilizer compositions comprising said microbial inoculant compositions.