Water safety plan enhancements with improved drinking water quality detection techniques
2020
Аутори
Gunnarsdottir, Maria J.Gardarsson, Sigurdur M.
Figueras, Maria J.
Puigdomenech, Claudia
Juarez, Ruben
Saucedo, Gemma
Jose Arnedo, M.
Santos, Ricardo
Monteiro, Silvia
Avery, Lisa
Pagaling, Eulyn
Allan, Richard
Abel, Claire
Eglitis, Janis
Hambsch, Beate
Huegler, Michael
Rajković, Andreja
Šmigić, Nada
Udovički, Božidar
Albrechtsen, Hans-Jorgen
Lopez-Aviles, Alma
Hunter, Paul
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
Drinking water quality has been regulated in most European countries for nearly two decades by the drinking water directive 98/83/EC. The directive is now under revision with the goal of meeting stricter demands for safe water for all citizens, as safe water has been recognized as a human right by the United Nations. An important change to the directive is the implementation of a risk-based approach in all regulated water supplies. The European Union Framework Seventh Programme Aquavalens project has developed several new detection technologies for pathogens and indicators and tested them in water supplies in seven European countries. One of the tasks of the project was to evaluate the impact of these new techniques on water safety and on water safety management. Data were collected on risk factors to water safety for five large supplies in Denmark, Germany, Spain and the UK, and for fifteen small water supplies in Scotland, Portugal and Serbia, via a questionnaire aiming to ascertain ...risk factors and the stage of implementation of Water Safety Plans, and via site-specific surveys known as Sanitary Site Inspection. Samples we re collected from the water supplies from all stages of water production to delivery. Pathogens were detected in around 23% of the 470 samples tested. Fecal contamination was high in raw water and even in treated water at the small supplies. Old infrastructure was considered a challenge at all the water supplies. The results showed that some of the technique, if implemented as part of the water safety management, can detect rapidly the most common waterborne pathogens and fecal pollution indicators and therefore have a great early warning potential; can improve water safety for the consumer; can validate whether mitigation methods are working as intended; and can confirm the quality of the water at source and at the tap.
Кључне речи:
Drinking water safety / Water safety plan performance / Risk factors in water supplyИзвор:
Science of the Total Environment, 2020, 698Издавач:
- Elsevier, Amsterdam
Финансирање / пројекти:
- Protecting the health of Europeans by improving methods for the detection of pathogens in drinking water and water used in food preparation (EU-FP7-311846)
DOI: 10.1016/j.scitotenv.2019.134185
ISSN: 0048-9697
PubMed: 31505354
WoS: 000500580700043
Scopus: 2-s2.0-85071870878
Институција/група
Poljoprivredni fakultetTY - JOUR AU - Gunnarsdottir, Maria J. AU - Gardarsson, Sigurdur M. AU - Figueras, Maria J. AU - Puigdomenech, Claudia AU - Juarez, Ruben AU - Saucedo, Gemma AU - Jose Arnedo, M. AU - Santos, Ricardo AU - Monteiro, Silvia AU - Avery, Lisa AU - Pagaling, Eulyn AU - Allan, Richard AU - Abel, Claire AU - Eglitis, Janis AU - Hambsch, Beate AU - Huegler, Michael AU - Rajković, Andreja AU - Šmigić, Nada AU - Udovički, Božidar AU - Albrechtsen, Hans-Jorgen AU - Lopez-Aviles, Alma AU - Hunter, Paul PY - 2020 UR - http://aspace.agrif.bg.ac.rs/handle/123456789/5360 AB - Drinking water quality has been regulated in most European countries for nearly two decades by the drinking water directive 98/83/EC. The directive is now under revision with the goal of meeting stricter demands for safe water for all citizens, as safe water has been recognized as a human right by the United Nations. An important change to the directive is the implementation of a risk-based approach in all regulated water supplies. The European Union Framework Seventh Programme Aquavalens project has developed several new detection technologies for pathogens and indicators and tested them in water supplies in seven European countries. One of the tasks of the project was to evaluate the impact of these new techniques on water safety and on water safety management. Data were collected on risk factors to water safety for five large supplies in Denmark, Germany, Spain and the UK, and for fifteen small water supplies in Scotland, Portugal and Serbia, via a questionnaire aiming to ascertain risk factors and the stage of implementation of Water Safety Plans, and via site-specific surveys known as Sanitary Site Inspection. Samples we re collected from the water supplies from all stages of water production to delivery. Pathogens were detected in around 23% of the 470 samples tested. Fecal contamination was high in raw water and even in treated water at the small supplies. Old infrastructure was considered a challenge at all the water supplies. The results showed that some of the technique, if implemented as part of the water safety management, can detect rapidly the most common waterborne pathogens and fecal pollution indicators and therefore have a great early warning potential; can improve water safety for the consumer; can validate whether mitigation methods are working as intended; and can confirm the quality of the water at source and at the tap. PB - Elsevier, Amsterdam T2 - Science of the Total Environment T1 - Water safety plan enhancements with improved drinking water quality detection techniques VL - 698 DO - 10.1016/j.scitotenv.2019.134185 ER -
@article{ author = "Gunnarsdottir, Maria J. and Gardarsson, Sigurdur M. and Figueras, Maria J. and Puigdomenech, Claudia and Juarez, Ruben and Saucedo, Gemma and Jose Arnedo, M. and Santos, Ricardo and Monteiro, Silvia and Avery, Lisa and Pagaling, Eulyn and Allan, Richard and Abel, Claire and Eglitis, Janis and Hambsch, Beate and Huegler, Michael and Rajković, Andreja and Šmigić, Nada and Udovički, Božidar and Albrechtsen, Hans-Jorgen and Lopez-Aviles, Alma and Hunter, Paul", year = "2020", abstract = "Drinking water quality has been regulated in most European countries for nearly two decades by the drinking water directive 98/83/EC. The directive is now under revision with the goal of meeting stricter demands for safe water for all citizens, as safe water has been recognized as a human right by the United Nations. An important change to the directive is the implementation of a risk-based approach in all regulated water supplies. The European Union Framework Seventh Programme Aquavalens project has developed several new detection technologies for pathogens and indicators and tested them in water supplies in seven European countries. One of the tasks of the project was to evaluate the impact of these new techniques on water safety and on water safety management. Data were collected on risk factors to water safety for five large supplies in Denmark, Germany, Spain and the UK, and for fifteen small water supplies in Scotland, Portugal and Serbia, via a questionnaire aiming to ascertain risk factors and the stage of implementation of Water Safety Plans, and via site-specific surveys known as Sanitary Site Inspection. Samples we re collected from the water supplies from all stages of water production to delivery. Pathogens were detected in around 23% of the 470 samples tested. Fecal contamination was high in raw water and even in treated water at the small supplies. Old infrastructure was considered a challenge at all the water supplies. The results showed that some of the technique, if implemented as part of the water safety management, can detect rapidly the most common waterborne pathogens and fecal pollution indicators and therefore have a great early warning potential; can improve water safety for the consumer; can validate whether mitigation methods are working as intended; and can confirm the quality of the water at source and at the tap.", publisher = "Elsevier, Amsterdam", journal = "Science of the Total Environment", title = "Water safety plan enhancements with improved drinking water quality detection techniques", volume = "698", doi = "10.1016/j.scitotenv.2019.134185" }
Gunnarsdottir, M. J., Gardarsson, S. M., Figueras, M. J., Puigdomenech, C., Juarez, R., Saucedo, G., Jose Arnedo, M., Santos, R., Monteiro, S., Avery, L., Pagaling, E., Allan, R., Abel, C., Eglitis, J., Hambsch, B., Huegler, M., Rajković, A., Šmigić, N., Udovički, B., Albrechtsen, H., Lopez-Aviles, A.,& Hunter, P.. (2020). Water safety plan enhancements with improved drinking water quality detection techniques. in Science of the Total Environment Elsevier, Amsterdam., 698. https://doi.org/10.1016/j.scitotenv.2019.134185
Gunnarsdottir MJ, Gardarsson SM, Figueras MJ, Puigdomenech C, Juarez R, Saucedo G, Jose Arnedo M, Santos R, Monteiro S, Avery L, Pagaling E, Allan R, Abel C, Eglitis J, Hambsch B, Huegler M, Rajković A, Šmigić N, Udovički B, Albrechtsen H, Lopez-Aviles A, Hunter P. Water safety plan enhancements with improved drinking water quality detection techniques. in Science of the Total Environment. 2020;698. doi:10.1016/j.scitotenv.2019.134185 .
Gunnarsdottir, Maria J., Gardarsson, Sigurdur M., Figueras, Maria J., Puigdomenech, Claudia, Juarez, Ruben, Saucedo, Gemma, Jose Arnedo, M., Santos, Ricardo, Monteiro, Silvia, Avery, Lisa, Pagaling, Eulyn, Allan, Richard, Abel, Claire, Eglitis, Janis, Hambsch, Beate, Huegler, Michael, Rajković, Andreja, Šmigić, Nada, Udovički, Božidar, Albrechtsen, Hans-Jorgen, Lopez-Aviles, Alma, Hunter, Paul, "Water safety plan enhancements with improved drinking water quality detection techniques" in Science of the Total Environment, 698 (2020), https://doi.org/10.1016/j.scitotenv.2019.134185 . .
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