Provided herein is a Trichoderma strain designated as TM17 and deposited under accession number NRRL 67984. The Trichoderma strain TM17 and a carrier may be used to make agricultural compositions. Plants comprising the Trichoderma strain TM17 or the agricultural compositions provided herein are also contemplated. Methods for inhibiting the growth of a microorganism on a plant are also provided and may include contacting the plant with an effective amount of the Trichoderma strain TM17 or agricultural compositions including the Trichoderma strain TM17 to inhibit the growth of the microorganism on the plant.

The invention encompasses a nontoxic agricultural formulation of a concentrated liquid suspension comprising a drying oil and suspended particulate materials, and also encompasses an aqueous formulation comprising the concentrated liquid suspension and an agricultural treatment agent. The invention additionally encompasses methods of treating an agricultural target.

The invention encompasses a nontoxic agricultural formulation of a concentrated liquid suspension comprising a drying oil and suspended particulate materials, and also encompasses an aqueous formulation comprising the concentrated liquid suspension and an agricultural treatment agent. The invention additionally encompasses methods of treating an agricultural target.

Provided is a plant exudate, methods for obtaining a plant exudate by inducing the plant to secrete an exudate and systems for the collection of a plant exudate which include: one or more plant container including at least two discrete compartments each configured to accommodate a split root of a plant, the compartments being a root stimulating compartment including one or more input being in fluid communication with at least a source of a plant root stimulant, and a root exudate harvesting compartment, and a root exudate collection compartment in fluid communication with the root exudate harvesting compartment.

Provided is a plant exudate, methods for obtaining a plant exudate by inducing the plant to secrete an exudate and systems for the collection of a plant exudate which include: one or more plant container including at least two discrete compartments each configured to accommodate a split root of a plant, the compartments being a root stimulating compartment including one or more input being in fluid communication with at least a source of a plant root stimulant, and a root exudate harvesting compartment, and a root exudate collection compartment in fluid communication with the root exudate harvesting compartment.

The present invention according to a first aspect relates to a Trichoderma longibrachiatum strain comprising an autologous nucleotide sequence coding for a protein having at least 70% sequence similarity with the amino acid sequence of SEQ ID NO: 1 and its use for the treatment of a plant. Further aspects of the invention relate to a protein derived from said strain, methods for producing the protein, the use of the protein for the treatment of a plant and compositions comprising a source of the protein of the invention. Yet Further aspects of the invention relate to seeds treated with a source of the protein and methods for growing plants incorporating the step of treating said plants with the composition of the invention.

The present invention according to a first aspect relates to a Trichoderma longibrachiatum strain comprising an autologous nucleotide sequence coding for a protein having at least 70% sequence similarity with the amino acid sequence of SEQ ID NO: 1 and its use for the treatment of a plant. Further aspects of the invention relate to a protein derived from said strain, methods for producing the protein, the use of the protein for the treatment of a plant and compositions comprising a source of the protein of the invention. Yet Further aspects of the invention relate to seeds treated with a source of the protein and methods for growing plants incorporating the step of treating said plants with the composition of the invention.

A microbial-based composition provides a co-cultured microorganism consortium in culture medium that includes one or more Acetobacter sp., Bacillus sp., Bifidobacterium sp., Enter ococus sp., Gluconacetobacter sp., Lactobacillus sp., Rhodopseudomonas sp., Saccharomyces sp., Pichia sp., and Trichoderma sp., as well as a carbon source and chlorine-free water. In some embodiments, the microbial-based composition is useful in the agricultural industry as a plant growth promoting and silage-enhancing agent. For plant growth promotion applications, the microbial-based composition may be applied to the foliar surface of a plant or to the plant growth medium, such as soil or hydroponic solution, surrounding the plant. In silage operations, the microbial-based composition may be applied to a cut plant product during one or more stages in the silage process.

A microbial-based composition provides a co-cultured microorganism consortium in culture medium that includes one or more Acetobacter sp., Bacillus sp., Bifidobacterium sp., Enter ococus sp., Gluconacetobacter sp., Lactobacillus sp., Rhodopseudomonas sp., Saccharomyces sp., Pichia sp., and Trichoderma sp., as well as a carbon source and chlorine-free water. In some embodiments, the microbial-based composition is useful in the agricultural industry as a plant growth promoting and silage-enhancing agent. For plant growth promotion applications, the microbial-based composition may be applied to the foliar surface of a plant or to the plant growth medium, such as soil or hydroponic solution, surrounding the plant. In silage operations, the microbial-based composition may be applied to a cut plant product during one or more stages in the silage process.

The present invention relates to a Trichoderma-derived selenium nanoparticles foliar fertilizer which reduces crop fungal diseases and toxin contamination. For the first time, a new type of agricultural composition was disclosed, which is mainly obtained by mixing Trichoderma harzianum culture with selenite, which has a good fungistatic effect. The inventors also screened and obtained a harzianum strain with excellent effect. After fermentation, mixed with selenite and post-processed, the obtained product had a significant effect on resisting harmful fungus and improving disease resistance of the plant.