Intensive exploitation of a karst aquifer leads to Cryptosporidium water supply contamination |
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Authors: | Khaldi S Ratajczak M Gargala G Fournier M Berthe T Favennec L Dupont J P |
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Affiliation: | a UMR CNRS 6143, M2C, University of Rouen, 76821 Mont-Saint-Aignan, Cedex, France b Parasitology Laboratory, Rouen University hospital & ADEN EA 4311-IFRMP 23, Institute for Biomedical Research, University of Rouen, France c Microbiology Laboratory, UMR 6143 CNRS, University of Rouen, 76821 Mont-Saint-Aignan, Cedex, France |
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Abstract: | Groundwater from karst aquifers is an important source of drinking water worldwide. Outbreaks of cryptosporidiosis linked to surface water and treated public water are regularly reported. Cryptosporidium oocysts are resistant to conventional drinking water disinfectants and are a major concern for the water industry. Here, we examined conditions associated with oocyst transport along a karstic hydrosystem, and the impact of intensive exploitation on Cryptosporidium oocyst contamination of the water supply. We studied a well-characterized karstic hydrosystem composed of a sinkhole, a spring and a wellbore. Thirty-six surface water and groundwater samples were analyzed for suspended particulate matter, turbidity, electrical conductivity, and Cryptosporidium and Giardia (oo)cyst concentrations. (Oo)cysts were identified and counted by means of solid-phase cytometry (ChemScan RDI®), a highly sensitive method. Cryptosporidium oocysts were detected in 78% of both surface water and groundwater samples, while Giardia cysts were found in respectively 22% and 8% of surface water and groundwater samples. Mean Cryptosporidium oocyst concentrations were 29, 13 and 4/100 L at the sinkhole, spring and wellbore, respectively. Cryptosporidium oocysts were transported from the sinkhole to the spring and the wellbore, with respective release rates of 45% and 14%, suggesting that oocysts are subject to storage and remobilization in karst conduits. Principal components analysis showed that Cryptosporidium oocyst concentrations depended on variations in hydrological forcing factors. All water samples collected during intensive exploitation contained oocysts. Control of Cryptosporidium oocyst contamination during intensive exploitation is therefore necessary to ensure drinking water quality. |
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Keywords: | Karst aquifer Cryptosporidium ChemScan RDI Groundwater Surface water Water supply Intensive exploitation |
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