PSIX-8 Drinking water acidification and chlorination improves microbiological water quality without detrimental effects on performance or hazard side-effects in bulls fed high-concentrate diets

The aim of this study was to evaluate the effect of drinking water disinfection (chlorination) and conditioning (acidification) on microbiological water quality, water and feed consumption, total tract apparent digestibility and its potential hazard effects on animal health in Holstein bulls fed high-concentrate diets. Twenty-four Holstein bulls (221 ± 20.9 kg of initial BW, and 184 ± 9.9 d of age) were housed individually and fed ad libitum. Animals were assigned to 4 treatments with a 2 x 2 factorial design: drinking water conditioning (with or without acidification) and disinfection (absence or chlorination). Every 28 d, water samples from the tank and drinker were collected to analyze pH, residual chlorine and microbial load. Water consumption was recorded daily, and every 2 wks feed consumption and BW were recorded. At d 0, 14, 98 and 196 blood samples were collected to hematology and clinical chemistry analysis. At d 42 and 147 total tract apparent digestibility was estimated. Data were analyzed with a mixed effects model. In the tank, acidification increased residual free chlorine (0.58 vs. 0.33 ± 0.081 ppm, interaction, P = 0.10) and chlorination reduced (P < 0.01) total coliform count (0.8 vs. 392.7 ± 0.30 CFU / 100 ml) and Clostridium perfringens count (0.0 vs. 9.0 ± 0.13 CFU / 100 ml). In the drinkers, chlorination only tended (P = 0.10) to decrease total coliform count (967.5 vs. 994.7 ± 0.01 CFU / 100 ml). Treatments did not affect daily water consumption, total DMI nor blood parameters. At the end of the study, chlorination tended (P = 0.07) to improve starch total apparent digestibility (98.2 vs 97.7 ± 0.28 %). In fattening bulls’, the conditioning (acidification) and disinfection (chlorination) of drinking water improved its microbiological quality without detrimental effects on water and feed consumption, ruminal digestibility or hazard side-effects.

Using hydrodynamic and hydraulic modelling to study microbiological water quality issues at a backwater area of the Danube to support decision-making

The alluvial backwater areas of the Danube are valuable ecological habitats containing important drinking water resources. Due to the river regulation and the construction of power plants, the river water levels and natural dynamics of the backwater areas continuously decline, threatening their typical characteristics. The aim of this study was to evaluate how an increased connectivity of the backwater branch located in a nature-protected riverine floodplain (enabled by diverting river water into the backwater system via a weir) affects the microbiological quality of groundwater resources. The defined quality criterion was that the diversion measures must not lead to an increased detection frequency of faecal indicators in groundwater. The microbiological water quality of the Danube, its backwater branch and the groundwater was analysed from 2010 to 2013. E. coli was selected as bacterial indicator for recent faecal pollution. C. perfringens (spores) was analysed as indicator for persistent faecal pollution and potentially occurring pathogenic protozoa. We simulated the microbial transport from the Danube and the backwater river into groundwater using a 3‑D unsaturated-saturated groundwater model coupled with 2‑D hydrodynamic flow simulations. Scenarios for no diversion measures were compared with scenarios for an additional discharge of 3, 20 and 80 m3/s from the Danube River into the backwater branch. While the additional discharge of 20 and 80 m3/s of Danube water into the floodplain strongly improved the ecological status according to ecological habitat models, the hydraulic transport simulations showed that this would result in a deterioration of the microbiological quality of groundwater resources. The presented approach shows how hydraulic transport modelling and microbiological analyses can be combined to support decision-making.

Automated Targeted Sampling of Waterborne Pathogens and Microbial Source Tracking Markers Using Near-Real Time Monitoring of Microbiological Water Quality

Waterborne pathogens are heterogeneously distributed across various spatiotemporal scales in water resources, and representative sampling is therefore crucial for accurate risk assessment. Since regulatory monitoring of microbiological water quality is usually conducted at fixed time intervals, it can miss short-term fecal contamination episodes and underestimate underlying microbial risks. In the present paper, we developed a new automated sampling methodology based on near real-time measurement of a biochemical indicator of fecal pollution. Online monitoring of β-D-glucuronidase (GLUC) activity was used to trigger an automated sampler during fecal contamination events in a drinking water supply and at an urban beach. Significant increases in protozoan parasites, microbial source tracking markers and E. coli were measured during short-term (<24 h) fecal pollution episodes, emphasizing the intermittent nature of their occurrence in water. Synchronous triggering of the automated sampler with online GLUC activity measurements further revealed a tight association between the biochemical indicator and culturable E. coli. The proposed event sampling methodology is versatile and in addition to the two triggering modes validated here, others can be designed based on specific needs and local settings. In support to regulatory monitoring schemes, it should ultimately help gathering crucial data on waterborne pathogens more efficiently during episodic fecal pollution events.

Microbiological water quality monitoring of four ponds from Lagoa do Sino Farm located in São Paulo State, Brazil

This study aimed to evaluate the microbiological quality of the water of four ponds used for irrigation on the Lagoa do Sino Farm, as well as to perform the genotypic characterization of virulence factors in Escherichia coli isolates. Sampling was conducted for 11 months, between 2015 and 2016. Samples were analyzed for the presence of thermotolerant coliforms, E. coli and heterotrophs. DNA was extracted from E. coli isolates, followed by genotypic characterization by polymerase chain reaction. Agricultural activities and pesticides used in the sampling period were documented in order to assess possible relationships between agricultural activities and microbiological water quality. The absence of suitable riparian vegetation around all the ponds was observed, benefiting the entry of organic matter and contaminants in the water body. A high index of thermotolerant coliforms in some months indicated the possibility of the transmission of pathogenic microorganisms in these ponds. The values found in some months were above the regulatory limits for water potability and water intended for irrigation. The agrochemicals used in the period seem to influence the results obtained. All 17 E. coli isolates showed at least one of the virulence genes estA, stx1, stx2, and aatA, indicating enterotoxigenic, enterohaemorrhagic or enteroaggregative nature. The presence of E. coli in the waters may be associated with the presence of animals. The water samples analyzed are not suitable for irrigation of vegetables that are consumed raw and/or low lying fruits ingested without skin removal. It is essential to broaden the control of the use of chemicals, as well as the preservation of riparian vegetation to improve the quality of water used in the farm's agricultural activities.

Comparison of Microbiological Water Quality and Chlorine Level Between Adult Public Swimming Pool and Baby Public Swimming Pool in Klang Valley, Malaysia.

Background: Swimming becomes one of the favorites sports in Malaysian due to the health benefits, for essential skills. The public swimming pool not only for an adult but there are for created for children as well. Most of the public swimming pool also provided a with two type of pool, adult and baby swimming pool.Objective: The purpose for this research is to compare the microbiological water quality and chlorine level between adult and baby public swimming pool in Klang Valley.Methodology: 21 water sample from public swimming pools include hotel, apartment, and public swimming pool in Lembah Klang, Malaysia was collected. The water samples collected in sterile bottles (30 ml). Physicochemical parameters determine by using standard instruments and methods (rainbow model 78), and the presence of the colony was using a heterotrophic plate count (HPC).Result: From heterotrophic plate count result shown out of 21 swimming pool for adult and 21 swimming pool for baby, 19.1% did not follow the World Health Organization (WHO), HPC. The microbiological quality (mean colony count) between baby and adult pool, there were slight differences of at 0.24%. The baby pool shows the higher value at of colony count at 111±197.334 compared with adult pool at 87.095±149.543. The independent t-test showed there is no significant between these groups with a p-value for at 0.65 (>0.05). For chlorine level, baby pool showed 47.6% swimming pools follow standard chlorine level and for an adult pool, 42.9 %. Comparing between two groups, baby pools show higher value with of chlorine at 1.581 ± 1.369 while adult pool at 1.414±1.293. The p-value for both as analyzed by independent t-test shows 0.694 (>0.05), which is not significant.Conclusion: The study recommends improvement in personal hygiene of swimmers, adequate disinfection of the pools and enforcement of standards by the government.