Physicochemical and Microbiological Water Quality Assessment of a Northwestern Algerian Dam: Detection of Ichtyopathogenic Bacteria.

Freshwater fish are often exposed to threats from anthropogenic or natural origins, such as pathogenic or opportunistic microorganisms responsible for a broad range of severe infections. In this study, we aimed to assess this microbiological threat to fish in an Algerian northwestern dam Sekkak (Tlemcen) by evaluating the diversity of ichtyopathogenic bacteria. In order to determine the water quality, physicochemical analyses of the dam water were carried out in situ. Ichtyopathogenic bacteria were isolated on selective media and identified by API galleries and molecular techniques (PCR and sequencing of the 16S rRNA gene). Besides, the antibiograms were constructed for all the isolates. The physicochemical and bacteriological analyses allowed us to classify the dam water as moderately polluted to polluted. Furthermore, an important diversity of ichtyopathogenic bacterial species was observed as Aeromonas hydrophila, Providencia rettgeri, and Pseudomonas aeruginosa were retrieved. The antibiogram test revealed notable resistance. The antibiotic family for which most resistances were found was the ß-lactam family, followed by aminoglycosides and macrolides. These results indicate that aquatic environments can shelter multidrug-resistant pathogenic bacteria representing a threat to the endemic fauna. Therefore, it is important to closely monitor these waters in order to improve the fish's living environment and ensure healthier production.

Multidrug-resistant Opportunistic and Pathogenic Bacteria Contaminate Algerian Banknotes Currency.

Currency is one of the most exchanged items in human communities as it is used daily in exchange for goods and services. It is handled by persons with different hygiene standards and can transit in different environments. Hence, money can constitute a reservoir for different types of human pathogens. This study aimed to evaluate the potential of Algerian banknotes to shelter opportunistic pathogenic and multiresistant bacteria. To that end, 200 circulating notes of four different denominations were collected from various places and analyzed for their bacterial loads and contents. Besides, predominant strains were identified and characterized by biochemical and molecular methods, and their resistance profiles against 34 antibiotics were determined. Our results indicated that 100% of the studied banknotes were contaminated with bacteria. The total bacterial concentrations were relatively high, and different bacterial groups were grown, showing important diversity. In total, 48 predominant strains were identified as belonging to 17 genera. Staphylococcus and Micrococcus were the most prevalent genera, followed by Bacillus, Pseudomonas, and Acinetobacter. Antibiotic susceptibility testing showed that all the isolates harbored resistance to at least two molecules, and worrying resistance levels were observed. These findings prove that Algerian currency harbors opportunistic multiresistant bacteria and could potentially act as a vehicle for the spread of bacterial diseases and as a reservoir for antibiotic resistance genes among the community. Therefore, no cash payment systems should be developed and generalized to minimize cash handling and subsequent potential health risks.