SIPIBEL data set
Creators
- BERTRAND-KRAJEWSKI, Jean-Luc1
- BOURNIQUE, Rémy2
- LECOMTE, Vivien2
- PERNIN, Noémie1
- WIEST, Laure3
- BAZIN, Christine4
- BOUCHEZ, Agnès5
- BRELOT, Elodie2
- COURNOYER, Benoît6
- CHONOVA, Teofana5
- DAGOT, Christophe7
- DI MAJO, Pascal8
- GONZALEZ-OSPINA, Adriana9
- KLEIN, Audrey10
- LABANOWSKI, Jérôme11
- LEVI, Yves12
- PERRODIN, Yves13
- RABELLO-VARGAS, Sandra14
- REUILLY, Liana15
- ROCH, Audrey16
- WAHL, Alex17
- 1. INSA Lyon
- 2. GRAIE
- 3. ISA - CNRS
- 4. Provademse
- 5. INRAE
- 6. UCBL - VetAgro Sup
- 7. Université de Limoges
- 8. Centre Hospitalier Alpes Léman (CHAL)
- 9. SUEZ
- 10. Commission Internationale pour la Protection des Eaux du Léman (CIPEL)
- 11. Université de Poitiers
- 12. Université Paris Sud, Université Paris-Saclay
- 13. ENTPE
- 14. Etat de Genève
- 15. Syndicat Mixte d'Aménagement de l'Arve et de ses Abords
- 16. Syndicat des eaux des Rocailles et de Bellecombe
- 17. Services Industriels de Genève
Description
The Bellecombe pilot site – SIPIBEL – was created in 2010 in order to study the characterisation, treatability and impacts of hospital effluents in an urban wastewater treatment plant. This pilot site is composed of: i) the CHAL hospital, opened in February 2012, ii) the Bellecombe wastewater treatment plant, with two separate treatment lines allowing to fully separate the hospital wastewater and the urban wastewater, and iii) the Arve River as the receiving water body and a tributary of the Rhône River and the Geneva aquifer. The data base includes in total 48 439 values measured on 961 samples (raw and treated hospital and urban wastewater, activated sludge in aeration tanks, dried sludge after dewatering, river and groundwater, and a few additional campaigns in aerobic and anaerobic sewers) with 44 455 physico-chemistry values (including 15 pharmaceuticals and 14 related transformation products, biocides compounds, metals, organic micropollutants, etc.), 2 193 bioassay values (ecotoxicity), 1 679 microbiology values (including microorganisms and antibioresistance indicators) and 112 hydrobiology values.
The ZIP file available on Zenodo contains i) a PDF file describing the complete data set and its content, and ii) ten Excel files with all SIPIBEL data.
Additional information is given in this Open Access paper: https://doi.org/10.1016/j.dib.2021.107726
Notes
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Additional details
References
- Bertrand-Krajewski J.-L. (Guest editor) (2018). Pharmaceuticals and detergents in hospital and urban wastewater: comparative monitoring, treatment, and assessment of impacts (editorial for the SIPIBEL Special Issue). Environmental Science and Pollution Research, 25(10), 9195-9196. Published on line 14 Feb 2018. doi.org/10.1007/s11356-018-1445-0.
- Chonova T., Lecomte V., Bertrand-Krajewski J.-L., Bouchez A., Labanowski J., Dagot C., Lévi Y., Perrodin Y., Wiest L., Gonzalez-Ospina A., Cournoyer B. and Sebastian C. (2018). The SIPIBEL project: treatment of hospital and urban wastewater in a conventional urban wastewater treatment plant. Environ Sci Pollut Res. 25(10):9197-9206. doi: 10.1007/s11356-017-9302-0.
- Wiest, L., Chonova, T., Bergé, A. et al. Two-year survey of specific hospital wastewater treatment and its impact on pharmaceutical discharges. Environ Sci Pollut Res 25, 9207–9218 (2018). https://doi.org/10.1007/s11356-017-9662-5
- Bergé, A., Wiest, L., Baudot, R. et al. Occurrence of multi-class surfactants in urban wastewater: contribution of a healthcare facility to the pollution transported into the sewerage system. Environ Sci Pollut Res 25, 9219–9229 (2018). https://doi.org/10.1007/s11356-017-0470-8
- Kiss, A., Bergé, A., Domenjoud, B. et al. Chemometric and high-resolution mass spectrometry tools for the characterization and comparison of raw and treated wastewater samples of a pilot plant on the SIPIBEL site. Environ Sci Pollut Res 25, 9230–9242 (2018). https://doi.org/10.1007/s11356-017-0748-x
- Laquaz, M., Dagot, C., Bazin, C. et al. Ecotoxicity and antibiotic resistance of a mixture of hospital and urban sewage in a wastewater treatment plant. Environ Sci Pollut Res 25, 9243–9253 (2018). https://doi.org/10.1007/s11356-017-9957-6
- Chonova, T., Labanowski, J., Cournoyer, B. et al. River biofilm community changes related to pharmaceutical loads emitted by a wastewater treatment plant. Environ Sci Pollut Res 25, 9254–9264 (2018). https://doi.org/10.1007/s11356-017-0024-0
- Pouzol T., Lévi Y., Bertrand-Krajewski J.-L. (2020). Modelling daily and hourly loads of pharmaceuticals in urban wastewater. International Journal of Hygiene and Environmental Health, 229, 20 p. doi.org/10.1016/j.ijheh.2020.113552. Available online 11 June 2020.