Bacteria, meio-and macrofauna were investigated at different depths in a coastal area of the Central Adriatic Sea, yielding information about the composition and abundance of the benthic community. In particular, 14 nematode genera were recorded for the first time in the Upper Adriatic Sea. All communities resulted as being significantly different between inshore and offshore stations, especially when the season interaction was considered. Sediment grain size seemed to be the main natural variable, along with trophic resources, affecting the distribution and composition of these benthic components, whilst there was no clear evidence of competition for food sources and predatory pressure between the communities. Meiofauna appeared the most useful community for detecting disturbances and river influences. In particular, the lowest copepod abundance in the shallow waters seemed to be related to a greater anthropogenic disturbance inshore, whilst meiofaunal abundance and diversity together with the nematode maturity index suggest the influence of the Foglia and Metauro rivers and the small stream Arzilla.
Background: In a wastewater treatment plant, the degradation process is performed by a variable and mixed community of microorganisms in an aerobic aquatic environment. The activated-sludge process is based on the formation of strong microbial flocs where many bacteria are attached to sludge flocs.Methods: Cytometric analysis requires an homogeneous cell suspension and so detachment of bacteria from flocs is required. In this study, sonication and homogenization were compared to find the most adequate pretreatment method for bacterial cytometric analysis in activated sludge samples. Bacterial viability was tested with a nucleic acid double-staining (NADS) protocol (Barbesti et al., Cytometry 2000;40:214-218) and on flow cytometry.Results: Each method showed a good efficiency in terms of bacterial detachment; thus finally, the choice of which could be the best treatment method was based on both viability results and analysis rapidity. On the basis of the degree of cell detachment and viability, the maximum value was obtained by sonication (2 Â 45@).Conclusions: The use of flow cytometry in conjunction with fluorescent dyes and an adequate pretreatment represents a useful method to rapidly detect and enumerate bacteria in activated sludge samples. q
The activated sludge process is performed by a variable and mixed community of microorganisms in an aerobic aquatic environment, in which bacteria constitute the majority and represent the main microorganisms responsible for the degradation process in a plant. In this work, we monitored bacterial charge in different wastewater treatment plants by flow cytometry, also evaluating chlorination effects on bacterial viability, both by flow cytometry and traditional plate counts. Maximum values of bacterial charge were registered in the aeration tank of all plants monitored. Cell viability did not show significant differences ( p . 0.05) in samples collected in ''before chlorination'' and ''wastewater effluent'' treatment steps; this suggests that the chlorination was not able to decrease total viable bacterial charge.In this work, we discuss the need to improve microbiological analyses, both in terms of measuring other potential pathogens and of using new methodological approaches in the traditional evaluation of the microbiological quality of effluents. Water Environ. Res., 80, 346 (2008).
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.