Methods for improving the ability of a population of biological agents to compete and survive in a field setting are provided. By improving the population of biological agents, the modified population of agents is able to grow, compete with other microbial strains and fungi, and provide protection for plants from pathogens. In particular, modified biological agents and modified populations of such agents that are herbicide tolerant or resistant are selected or engineered. In this manner, the protection from disease-causing agents is enhanced. Such modified populations of biological agents can be added to soils to prevent fungal pathogens and the diseases they cause promoting plant growth. Therefore, the present invention is useful for enhancing the competitiveness of modified biological agents particularly over other microbial agents which are not herbicide resistant. Compositions of the invention include selected or engineered herbicide resistant biological agents and modified populations of biocontrol agents. These modified biological agents can be used as an inoculant or as a seed coating for plants and seeds.

Methods for improving the ability of a population of biological agents to compete and survive in a field setting are provided. By improving the population of biological agents, the modified population of agents is able to grow, compete with other microbial strains and fungi, and provide protection for plants from pathogens. In particular, modified biological agents and modified populations of such agents that are herbicide tolerant or resistant are selected or engineered. In this manner, the protection from disease-causing agents is enhanced. Such modified populations of biological agents can be added to soils to prevent fungal pathogens and the diseases they cause promoting plant growth. Therefore, the present invention is useful for enhancing the competitiveness of modified biological agents particularly over other microbial agents which are not herbicide resistant. Compositions of the invention include selected or engineered herbicide resistant biological agents and modified populations of biocontrol agents. These modified biological agents can be used as an inoculant or as a seed coating for plants and seeds.

The present invention relates to a composition comprising a) recombinant exosporium-producing Bacillus cells that express a fusion protein comprising: (i) at least one plant growth stimulating protein or peptide and (ii) a targeting sequence that localizes the fusion protein to the exosporium of the Bacillus cells; and b) at least one further biological control agent selected from particular microorganisms disclosed herein and/or a mutant of a specific strain of a microorganism disclosed herein having all identifying characteristics of the respective strain, and/or at least one metabolite produced by the respective strain, and/or at least one metabolite produced by the respective strain that exhibits activity against insects, mites, nematodes and/or phytopathogens in a synergistically effective amount. Furthermore, the present invention relates to the use of this composition as well as a method for enhancing plant growth, promoting plant health, and/or reducing overall damage of plants and plant parts.

The present invention relates to a rodenticide bait composition comprising a calcium salt and a dehydrant; wherein the calcium salt is selected from the group consisting of calcium carbonate, calcium citrate, calcium acetate, calcium benzoate, calcium 5 octanoate, calcium stearate, calcium silicate, calcium oxide silicate, calcium sulfate, calcium chloride, calcium bromide, calcium iodide, calcium lactate, calcium gluconate, calcium oxalate, calcium phosphate and combinations of two or more thereof; wherein the calcium salt is present in an amount of less than 20 wt. % based on the total weight of the composition; wherein the dehydrant comprises one or more sources of cellulose 10 and one or more sources of phospholipids.

Methods of preparing a liquid Chlorella-based composition comprising pasteurization and stabilization of a low concentration of mixotrophic or non-mixotrophic Chlorella whole cells are disclosed. The liquid composition can be used to enhance at least one plant characteristic such as: seed germination rate, seed germination time, seedling emergence, seedling emergence time, seedling size, plant fresh weight, plant dry weight, utilization, fruit production, leaf production, leaf formation, thatch height, plant health, plant resistance to salt stress, plant resistance to heat stress, plant resistance to heavy-metal stress, plant resistance to drought, maturation time, yield, root length, root mass, color, insect damage, blossom end rot, softness, fruit quality, and sunburn.

Methods of preparing a liquid Chlorella-based composition comprising pasteurization and stabilization of a low concentration of mixotrophic or non-mixotrophic Chlorella whole cells are disclosed. The liquid composition can be used to enhance at least one plant characteristic such as: seed germination rate, seed germination time, seedling emergence, seedling emergence time, seedling size, plant fresh weight, plant dry weight, utilization, fruit production, leaf production, leaf formation, thatch height, plant health, plant resistance to salt stress, plant resistance to heat stress, plant resistance to heavy-metal stress, plant resistance to drought, maturation time, yield, root length, root mass, color, insect damage, blossom end rot, softness, fruit quality, and sunburn.

The present invention relates to the use of an inorganic phosphor to increase the yield of corn or soy cultivation promoted by the use of at least one fungicide, said inorganic phosphor exhibiting: a maximum in the emission spectrum in the range of wavelengths between 400 nm and 500 nm; an absorption Abs in the visible range which is equal to or less than 15.0%, preferably equal to or less than 10.0%, even more particularly equal to or less than 3.0%; and an internal quantum efficiency (IQE) measured in the range of wavelengths between 300 nm and 410 nm which is equal to or greater than 50.0%, more particularly greater than 75.0%, even more particularly greater than 90.0%.

The present invention relates to the use of an inorganic phosphor to increase the yield of corn or soy cultivation promoted by the use of at least one fungicide, said inorganic phosphor exhibiting: a maximum in the emission spectrum in the range of wavelengths between 400 nm and 500 nm; an absorption Abs in the visible range which is equal to or less than 15.0%, preferably equal to or less than 10.0%, even more particularly equal to or less than 3.0%; and an internal quantum efficiency (IQE) measured in the range of wavelengths between 300 nm and 410 nm which is equal to or greater than 50.0%, more particularly greater than 75.0%, even more particularly greater than 90.0%.

The present invention relates to agrochemically active herbicidal compositions and to the use thereof for control of harmful plants. The present invention further relates to adjuvant combinations for improving bioavailability, especially cuticle penetration, of active herbicidal ingredients.

The present invention relates to agrochemically active herbicidal compositions and to the use thereof for control of harmful plants. The present invention further relates to adjuvant combinations for improving bioavailability, especially cuticle penetration, of active herbicidal ingredients.