Add to ORKGThe inactivation of Campylobacter jejuni and Salmonella enterica, compared with Escherichia coli, was determined in 100 l chambers of seawater and river water located at an outdoor site. The chambers (paired with dark controls) were seeded with waste stabilization pond effluent and laboratory-cultured pathogens, and exposed to sunlight in summer and winter experiments. All sunlight inactivation (kS) rates, as a function of cumulative global solar radiation (insolation), were far higher than the corresponding dark (kD) rates, with a ranking (and average kS rates for seawater and river water, respectively) of: C. jejuni (3.23; 2.34). S. enterica (0.51; 0.37). E. coli (0.34; 0.26). All the T90 (time to 90 % inactivation) values were higher in ...
The effects of solar radiation and temperature on bacterial die-off rates in Black Sea coastal water...
Sunlight has long been known to inactivate microorganisms in natural waters and engineered systems. ...
Models that predict sunlight inactivation rates of bacteria are valuable tools for predicting the fa...
Aims: To determine whether diurnal and seasonal variations in campylobacters in surface waters resul...
In the last decade, flooding has caused the death of over 60,000 people and affected over 900 millio...
Sunlight is a very rich source of energy and it’s now widely used in many fields. Another use of i...
Reductions in counts of enteric indicator bacteria and bacteriophages were compared in surface and g...
This research investigates the sunlight-mediated inactivation of pathogens in surface waters, with a...
For the first time solar disinfection of liters of water containing wild Salmonella sp. and total co...
The decay of sewage-sourced <i>Escherichia coli</i> and enterococci was measured at multiple depths ...
Microcosm studies have been carried out to find out the relative survival of Escherichia coli and Sa...
This work uncovers the implications of the estimation of exogenous inactivation rates for E. coli af...
In this study, simulated solar disinfection of secondary effluent was followed by dark storage at di...
Sunlight inactivation of microorganisms is a natural process that can occur in any sunlit water and ...
The most frequent cause of salmonelloses are food poisonings. However, many studies prove the occurr...
The effects of solar radiation and temperature on bacterial die-off rates in Black Sea coastal water...
Sunlight has long been known to inactivate microorganisms in natural waters and engineered systems. ...
Models that predict sunlight inactivation rates of bacteria are valuable tools for predicting the fa...
Aims: To determine whether diurnal and seasonal variations in campylobacters in surface waters resul...
In the last decade, flooding has caused the death of over 60,000 people and affected over 900 millio...
Sunlight is a very rich source of energy and it’s now widely used in many fields. Another use of i...
Reductions in counts of enteric indicator bacteria and bacteriophages were compared in surface and g...
This research investigates the sunlight-mediated inactivation of pathogens in surface waters, with a...
For the first time solar disinfection of liters of water containing wild Salmonella sp. and total co...
The decay of sewage-sourced <i>Escherichia coli</i> and enterococci was measured at multiple depths ...
Microcosm studies have been carried out to find out the relative survival of Escherichia coli and Sa...
This work uncovers the implications of the estimation of exogenous inactivation rates for E. coli af...
In this study, simulated solar disinfection of secondary effluent was followed by dark storage at di...
Sunlight inactivation of microorganisms is a natural process that can occur in any sunlit water and ...
The most frequent cause of salmonelloses are food poisonings. However, many studies prove the occurr...
The effects of solar radiation and temperature on bacterial die-off rates in Black Sea coastal water...
Sunlight has long been known to inactivate microorganisms in natural waters and engineered systems. ...
Models that predict sunlight inactivation rates of bacteria are valuable tools for predicting the fa...