Abstract: The invention relates to a consortium of microorganisms capable of hydrolyzing cellulose, preferably lignocellulosic biomass, which may comprise the following mixtures of bacterial strains: Bacillus sp. KP7, KP20 and Ochrobactrum sp. KP8 (the mixture deposited in PCM under the no. B/00064), Providencia sp. KP14; Bacillus sp. KP6 and KP16 (the mixture deposited in PCM under the no. B/00065), Bacillus sp. KP4, KP5, KP17 and KP22 (the mixture deposited in PCM under the no. B/00066), Providencia sp. KP10; Bacillus sp. KP1 and KP19 (the mixture deposited in PCM under the no. B/00067), Ochrobactrum sp. KP13; Bacillus sp. KP9 and KP12 (the mixture deposited in PCM under the no. B/00068), as well as a preparation for hydrolyzing cellulose which may comprise this consortium, a supplement preparation, a combination preparation, and use and method of using the same.

Abstract: The object of the invention is the plasmid pSheB, particularly a plasmid which may comprise a fragment of pSheB including the arr module and functional derivatives thereof, and strains containing such a plasmid, preferably the Shewanella sp. strain, deposited as KKP 2045p, which are capable of removing arsenic by dissolution of minerals and reduction of arsenates to arsenites. The object of the invention is also the method and the use of such bacterial strains or compositions which may comprise them, for the selective removal of arsenic from mineral resources, raw materials industry waste or soil.

Abstract: The invention provides novel strains Agrobacterium tumefaciens KKP 2039p and Paracoccus alcaliphilus KKP 2040p, the plasmid pSinA and its functional derivative, method for producing bacterial strains capable of chemolithotrophic arsenite oxidation and novel bacterial strains produced by this method. The invention also relates to the composition, comprising the novel bacterial strain or the plasmid pSinA and the use of these novel strains, as well as the method of bioaugmentation of an arsenic contaminated environment, particularly the method for the removal of arsenic from waters.

Abstract: The invention relates to a consortium of microorganisms capable of hydrolyzing cellulose, preferably lignocellulosic biomass, which may comprise the following mixtures of bacterial strains: Bacillus sp. KP7, KP20 and Ochrobactrum sp. KP8 (the mixture deposited in PCM under the no. B/00064), Providencia sp. KP14; Bacillus sp. KP6 and KP16 (the mixture deposited in PCM under the no. B/00065), Bacillus sp. KP4, KP5, KP17 and KP22 (the mixture deposited in PCM under the no. B/00066), Providencia sp. KP10; Bacillus sp. KP1 and KP19 (the mixture deposited in PCM under the no. B/00067), Ochrobactrum sp. KP13; Bacillus sp. KP9 and KP12 (the mixture deposited in PCM under the no. B/00068), as well as a preparation for hydrolyzing cellulose which may comprise this consortium, a supplement preparation, a combination preparation, and use and method of using the same.

Abstract: The object of the invention is the plasmid pSheB, particularly a plasmid which may comprise a fragment of pSheB including the arr module and functional derivatives thereof, and strains containing such a plasmid, preferably the Shewanella sp. strain, deposited as KKP 2045p, which are capable of removing arsenic by dissolution of minerals and reduction of arsenates to arsenites. The object of the invention is also the method and the use of such bacterial strains or compositions which may comprise them, for the selective removal of arsenic from mineral resources, raw materials industry waste or soil.

Abstract: The invention provides novel strains Agrobacterium tumefaciens KKP 2039p and Paracoccus alcaliphilus KKP 2040p, the plasmid pSinA and its functional derivative, method for producing bacterial strains capable of chemolithotrophic arsenite oxidation and novel bacterial strains produced by this method. The invention also relates to the composition, comprising the novel bacterial strain or the plasmid pSinA and the use of these novel strains, as well as the method of bioaugmentation of an arsenic contaminated environment, particularly the method for the removal of arsenic from waters.

Abstract: The invention provides novel strains Agrobacterium tumefaciens KKP 2039p and Paracoccus alcaliphilus KKP 2040p, the plasmid pSinA and its functional derivative, method for producing bacterial strains capable of chemolithotrophic arsenite oxidation and novel bacterial strains produced by this method. The invention also relates to the composition, comprising the novel bacterial strain or the plasmid pSinA and the use of these novel strains, as well as the method of bioaugmentation of an arsenic contaminated environment, particularly the method for the removal of arsenic from waters.