Method that allows surfaces in interior spaces or technical equipments to be cleaned, characterised in that it comprises at least the following step: —the targeted atomization on the surfaces of a liquid with spores of benign bacteria on all or certain types of surfaces by means of an electrically and/or pneumatically powered atomizer, while the space remains accessible to people and animals, with the purpose of speeding up the cleaning of interior spaces and of technical equipments, lowering the cleaning frequency, and lowering the dust deposit.

Method that allows surfaces in interior spaces or technical equipments to be cleaned, characterised in that it comprises at least the following step: —the targeted atomization on the surfaces of a liquid with spores of benign bacteria on all or certain types of surfaces by means of an electrically and/or pneumatically powered atomizer, while the space remains accessible to people and animals, with the purpose of speeding up the cleaning of interior spaces and of technical equipments, lowering the cleaning frequency, and lowering the dust deposit.

Use of an adaptogen for the treatment and/or control and/or prevention of a disease or infestation of a plant by application of said adaptogen to the plant, wherein: (i) the adaptogen is Blad or a variant thereof and the location of the disease or infestation is in a region of the plant which is different to the region where the adaptogen is applied; or (ii) the adaptogen is skopobiota which is used to inoculate said plant or part thereof;
and preferably said adaptogen is in the form of a composition.

Use of an adaptogen for the treatment and/or control and/or prevention of a disease or infestation of a plant by application of said adaptogen to the plant, wherein: (i) the adaptogen is Blad or a variant thereof and the location of the disease or infestation is in a region of the plant which is different to the region where the adaptogen is applied; or (ii) the adaptogen is skopobiota which is used to inoculate said plant or part thereof;
and preferably said adaptogen is in the form of a composition.

Use of an adaptogen for the treatment and/or control and/or prevention of a disease or infestation of a plant by application of said adaptogen to the plant, wherein: (i) the adaptogen is Blad or a variant thereof and the location of the disease or infestation is in a region of the plant which is different to the region where the adaptogen is applied; or (ii) the adaptogen is skopobiota which is used to inoculate said plant or part thereof;
and preferably said adaptogen is in the form of a composition.

Provided herein are genetically modified microbes. In one embodiment, a genetically modified microbe includes an exogenous polynucleotide that includes a pheromone-responsive region. In one embodiment, the pheromone-responsive region is derived from a conjugative plasmid from a member of the genus Enterococcus spp. The pheromone-responsive region includes a pheromone-responsive promoter and an operably linked coding region encoding an antimicrobial peptide. In one embodiment, a genetically modified microbe includes an exogenous polynucleotide that includes a promoter and an operably linked coding sequence encoding an antimicrobial peptide, where expression of the coding region is controlled by a modulator polypeptide and is altered by a modulating agent, and where the coding region encodes an antimicrobial peptide.

Provided herein are genetically modified microbes. In one embodiment, a genetically modified microbe includes an exogenous polynucleotide that includes a pheromone-responsive region. In one embodiment, the pheromone-responsive region is derived from a conjugative plasmid from a member of the genus Enterococcus spp. The pheromone-responsive region includes a pheromone-responsive promoter and an operably linked coding region encoding an antimicrobial peptide. In one embodiment, a genetically modified microbe includes an exogenous polynucleotide that includes a promoter and an operably linked coding sequence encoding an antimicrobial peptide, where expression of the coding region is controlled by a modulator polypeptide and is altered by a modulating agent, and where the coding region encodes an antimicrobial peptide.

Compositions comprising microbiological strains and cultures and methods of use thereof are provided herein. Certain strains, cultures, and compositions thereof are useful for the control of head blight disease, for example, of various crop plants. Biological control compositions, and methods of use thereof to prevent, inhibit or treat the development of plant pathogens or disease and for preserving plant yield, are also provided.

Compositions comprising microbiological strains and cultures and methods of use thereof are provided herein. Certain strains, cultures, and compositions thereof are useful for the control of head blight disease, for example, of various crop plants. Biological control compositions, and methods of use thereof to prevent, inhibit or treat the development of plant pathogens or disease and for preserving plant yield, are also provided.

A method and system for the treatment of honey bees (Apis mellifera), bats, and butterflies protects them from various life threatening conditions, including Colony Collapse Disorder and in particular, provides honey bees with the ability to assimilate and degrade pesticides such as neonicotinoids and fipronil.