Disclosed herein are compositions including cells of defined sets of microbial species (for example, 3, 16, 18, 19, 21, or 22 microbial species). Also disclosed are methods of using the microbial compositions that include contacting soil, plants, plant parts, or seeds with the composition. The microbial compositions are also used in methods of degrading biological materials, such as chitin-containing biological materials.

Disclosed herein are compositions including cells of defined sets of microbial species (for example, 3, 16, 18, 19, 21, or 22 microbial species). Also disclosed are methods of using the microbial compositions that include contacting soil, plants, plant parts, or seeds with the composition. The microbial compositions are also used in methods of degrading biological materials, such as chitin-containing biological materials.

Disclosed herein are compositions including cells of defined sets of microbial species (for example, 3, 16, 18, 19, 21, or 22 microbial species). Also disclosed are methods of using the microbial compositions that include contacting soil, plants, plant parts, or seeds with the composition. The microbial compositions are also used in methods of degrading biological materials, such as chitin-containing biological materials.

The present invention relates to polymeric particles comprising a biodegradable polymer, and at least one microorganism in a total concentration of at least 10.sup.8 CFU/g dry weight that is stable for at least 35 weeks at 30° C. and optionally additional carriers and additives as well as to methods for producing polymeric particles and use thereof.

The present invention relates to polymeric particles comprising a biodegradable polymer, and at least one microorganism in a total concentration of at least 10.sup.8 CFU/g dry weight that is stable for at least 35 weeks at 30° C. and optionally additional carriers and additives as well as to methods for producing polymeric particles and use thereof.

The present invention relates to polymeric particles comprising a biodegradable polymer, and at least one microorganism in a total concentration of at least 10.sup.8 CFU/g dry weight that is stable for at least 35 weeks at 30° C. and optionally additional carriers and additives as well as to methods for producing polymeric particles and use thereof.

A biological inoculant having both fertilizing and fungicidal activity is disclosed. More particularly, a bio-inoculant having the said combined effects, comprising Bradyrhizobium japonicum and specific isolates from the Trichoderma genus is disclosed. The bio-inoculant is applied to soybean crops for preventing fungi borne diseases. More particularly, the bio-inoculant of the invention is useful for protecting soybean crops against infection by Fusarium sp., Colletotrichum sp., Cercospora sp., Sclerotinia sp. and Rhizoctonia sp.

A biological inoculant having both fertilizing and fungicidal activity is disclosed. More particularly, a bio-inoculant having the said combined effects, comprising Bradyrhizobium japonicum and specific isolates from the Trichoderma genus is disclosed. The bio-inoculant is applied to soybean crops for preventing fungi borne diseases. More particularly, the bio-inoculant of the invention is useful for protecting soybean crops against infection by Fusarium sp., Colletotrichum sp., Cercospora sp., Sclerotinia sp. and Rhizoctonia sp.

The invention concerns new Bacillus strains which are able to degrade effectively inorganic nitrogen compounds and are further able to inhibit the growth of pathogens of aquatic animals.

The present invention belongs to the field of biotechnology, in particular to a multivalent fusion protein AB-NAC-189, method for producing the same, and uses thereof. The protein AB-NAC-189 is a fusion of a polypeptide segment AB, nascent polypeptide-associated complex (NAC), and a protein 189 corresponding to amino acids 1-189 from the N-terminal of protein HarpinEa. The fusion has the properties of a multivalent plant immune protein, thus it can effectively stimulate the hypersensitive response of tobacco leaves and has good thermal stability. While stimulating the immune response of plants, it can also improve the disease resistance of plants and promote plant growth. The AB-NAC-189 multivalent vaccine shows higher activity per unit concentration, and greater ability to promote growth of wheat and tobacco; meanwhile it can significantly promote chlorophyll synthesis in Goji berry, thereby improving the yield and quality of Goji berries.