[Elimination of volatile compounds of leaf tobacco from air emissions using biofiltration].

The composition of the volatile organic compounds (VOCs) of various leaf tobacco brands and their blends has been studied. The differences in the content of nicotine, solanone, tetramethyl hexadecenol, megastigmatrienones, and other compounds, determining the specific tobacco smell, have been revealed. A microbial consortium, which is able to deodorize simulated tobacco emissions and decompose nicotine, has been formed by long-term adaptation to the VOCs of tobacco leaves in a laboratory reactor, functioning as a trickle-bed biofilter. Such a biofilter eliminates 90% of the basic toxic compound (nicotine) and odor-active compounds; the filtration efficiency does not change for tobacco brands with different VOC concentrations or in the presence of foreign substances. The main strains, isolated from the formed consortium and participating in the nicotine decomposition process, belong to the genera Pseudomonas, Bacillus, and Rhodococcus. An examination of the biofilter trickling fluid has shown full decomposition of nicotine and odor-active VOCs. The compounds, revealed in the trickling fluid, did not have any odor and were nontoxic. The obtained results make it possible to conduct scaling of the biofiltration process to eliminate odor from air emissions in the tobacco industry.

[Production of the antibiotic-algicide cyanobacterin LU-2 by a filamentous cyanobacterium Nostoc sp]. / Obrazovanie antibiotika-algitsida tsianobakterina LU-2 nitchatoi tsianobakteriei Nostoc sp.

A strain of cyanobacterium of Nostoc has been isolated, and found to produce a new antibiotic cyanobacterin LU-2. The antibiotic is synthesized by the cyanobnacterium under intensive cultivation conditions in a liquid mineral medium. Cyanobacterin LU-2 is an exometabolite; its maximum accumulation in the medium is achieved at 34 degrees. Cyanobacterin LU-2 is active against many cyanobacteria tested, including those of Microcystis and Aphanizomenon which are principals to give rise to blooms in fresh water supplies. It is poorly active against green algae and inactive against fungi and bacteria. The antibiotic hinders cell division in Synechococcus sp. R-2 (PCC 7942). It causes compression of the cytoplasm and exfoliation of the cell contents from cell wall; the distance between tylacoids is increased and their destruction is observed. The antibiotic hinders markedly light-dependent oxygen evolution. Cyanobacterin LU-2 is substance of a phenolic nature containing amino-sugar.