Chemical and microbiological characterization of an aged PCB-contaminated soil.

This study was aimed at complex characterization of three soil samples (bulk soil, topsoil and rhizosphere soil) from a site historically contaminated with polychlorinated biphenyls (PCB). The bulk soil was the most highly contaminated, with a PCB concentration of 705.95 mg kg(-1), while the rhizosphere soil was the least contaminated (169.36 mg kg(-1)). PCB degradation intermediates, namely chlorobenzoic acids (CBAs), were detected in all the soil samples, suggesting the occurrence of microbial transformation processes over time. The higher content of organic carbon in the topsoil and rhizosphere soil than in the bulk soil could be linked to the reduced bioaccessibility (bioavailability) of these chlorinated pollutants. However, different proportions of the PCB congener contents and different bioaccessibility of the PCB homologues indicate microbial biotransformation of the compounds. The higher content of organic carbon probably also promoted the growth of microorganisms, as revealed by phospholipid fatty acid (PFLA) quantification. Tag-encoded pyrosequencing analysis showed that the bacterial community structure was significantly similar among the three soils and was predominated by Proteobacteria (44-48%) in all cases. Moreover, analysis at lower taxonomic levels pointed to the presence of genera (Sphingomonas, Bulkholderia, Arthrobacter, Bacillus) including members with reported PCB removal abilities. The fungal community was mostly represented by Basidiomycota and Ascomycota, which accounted for >80% of all the sequences detected in the three soils. Fungal taxa with biodegradation potential (Paxillus, Cryptococcus, Phoma, Mortierella) were also found. These results highlight the potential of the indigenous consortia present at the site as a starting point for PCB bioremediation processes.

[Antimicrobial activity of diazole-(N-salicylidene-L-alpha- alaninato)-copper complexes]. / Antimikróbna aktivita diazol-(n-salicylidén-l-alpha-alanináto) mednatých komplexov.

The antimicrobial activities of a group of copper(II) chelates with the composition [Cu(TSB)(L)] or [Cu(TSB)(L')]. (TSB = N-salicylidene-L-alpha-alaninate dianion, L = imidazole and its alkyl derivatives, L' = pyrazole and 3,5-dimethylpyrazole) were studied. Bis-diazole complexes with L' = pyrazole and 3,5-dimethylpyrazole were found to be the most active against S. aureus (MIC = 78 and 20 micrograms.cm-3), less effective against C. albicans (156 micrograms.cm-3), T. terrestre and M. gypseum (100 micrograms.cm-3). The observed biological properties of complexes are discussed in relation to their proposed structures.