This invention describes discovery and development of a biological system of plant growth promotion and environmental improvement by carbon sequestration and/or nitrogen utilization by application of a microbial agent, e.g., a highly effective strain of T. viride, particularly strains NRRL B-50520 and/or K5. This strain outperforms the best current strains of Trichoderma used for this purpose available commercially. The highly active products also are expected to increase plant productivity and improve quality of fruits, vegetables, flowers or other plant products. The invention also describes and demonstrates that strain combinations including Bacillus amyloliquifaciens AS2 or AS3, as well as disclosed metabolites, promote plant growth. This is true across monocots and dicots, seed treatments and foliar sprays. In the field plant height, shoot weight, root weight, and photosynthesis (Spad meter readings) were all increased in comparison to the untreated control as well as the leading biological seed treatments. The invention also describes metabolite utilization for enhancing plant growth.

The present invention provides a method for making a consortium of fungi resistant to traces of carbamates contained in thiodicarb and to traces of synthetic pyrethroids contained in bifenthrin. During the course of this research, carried out over more than five years, the strains were subjected to a change in physical medium, adapting same to tolerate increasing concentrations of thiodicarb and bifenthrin. This compound enriches and increases the concentration of beneficial microorganisms, generating high-quality liquid biological fertilisers suitable for use in agricultural production, in land recovery and conservation, under the parameters established in sustainable organic farming, which seeks to conserve, recover and use nature or the environment without generating the least negative impact.

The present invention provides a method for making a consortium of fungi resistant to traces of carbamates contained in thiodicarb and to traces of synthetic pyrethroids contained in bifenthrin. During the course of this research, carried out over more than five years, the strains were subjected to a change in physical medium, adapting same to tolerate increasing concentrations of thiodicarb and bifenthrin. This compound enriches and increases the concentration of beneficial microorganisms, generating high-quality liquid biological fertilisers suitable for use in agricultural production, in land recovery and conservation, under the parameters established in sustainable organic farming, which seeks to conserve, recover and use nature or the environment without generating the least negative impact.

The present invention provides a method for making a consortium of fungi resistant to traces of carbamates contained in thiodicarb and to traces of synthetic pyrethroids contained in bifenthrin. During the course of this research, carried out over more than five years, the strains were subjected to a change in physical medium, adapting same to tolerate increasing concentrations of thiodicarb and bifenthrin. This compound enriches and increases the concentration of beneficial microorganisms, generating high-quality liquid biological fertilisers suitable for use in agricultural production, in land recovery and conservation, under the parameters established in sustainable organic farming, which seeks to conserve, recover and use nature or the environment without generating the least negative impact.

Disclosed are compositions for enhancing plant growth, comprising at least one lipo-chitooligosaccharide (LCO) compound; and at least one agriculturally beneficial agent selected from the group consisting at least one pesticide, at least one beneficial microorganism, and combinations thereof. Methods for enhancing plant growth and treating seeds with the compositions provided herein are also disclosed.

Disclosed are compositions for enhancing plant growth, comprising at least one lipo-chitooligosaccharide (LCO) compound; and at least one agriculturally beneficial agent selected from the group consisting at least one pesticide, at least one beneficial microorganism, and combinations thereof. Methods for enhancing plant growth and treating seeds with the compositions provided herein are also disclosed.

Disclosed are compositions for enhancing plant growth, comprising at least one lipo-chitooligosaccharide (LCO) compound; and at least one agriculturally beneficial agent selected from the group consisting at least one pesticide, at least one beneficial microorganism, and combinations thereof. Methods for enhancing plant growth and treating seeds with the compositions provided herein are also disclosed.

This disclosure describes a biological system of plant growth promotion, pest resistance and disease resistance by application of strains of T. viride, Trichoderma harzianum K2, Bacillus amyloliquifaciens AS2, Bacillus amyloliquifaciens AS3, or a combination thereof. These strains can be used in conventional or organic agriculture for the promotion nematode resistance when applied topically as a foliar spray or as a seed coating. The highly active strains also are expected to increase plant productivity and improve quality of fruits, vegetables, flowers or other plant products.

This disclosure describes a biological system of plant growth promotion, pest resistance and disease resistance by application of strains of T. viride, Trichoderma harzianum K2, Bacillus amyloliquifaciens AS2, Bacillus amyloliquifaciens AS3, or a combination thereof. These strains can be used in conventional or organic agriculture for the promotion nematode resistance when applied topically as a foliar spray or as a seed coating. The highly active strains also are expected to increase plant productivity and improve quality of fruits, vegetables, flowers or other plant products.

The present disclosure relates to formulations including Trichoderma isolates, as well as methods thereof. In particular embodiments, the formulation can include one or more Trichoderma isolates, in which the formulation can include solid carriers and/or liquid carriers. Such formulations can be useful for treating or protecting plants, as well as counteracting growth of pathogenic organisms in proximity to the plant.