| Realistic exposure scenarios in combined sewer overflows: how temporal resolution and selection of micropollutants impact risk assessment
Furrer, V., Junghans, M., Singer, H., & Ort, C. (2025). Realistic exposure scenarios in combined sewer overflows: how temporal resolution and selection of micropollutants impact risk assessment. Water Research, 278, 123318 (9 pp.). https://doi.org/10.1016/j.watres.2025.123318 |
| Organic UV-filters and freshwater organisms: data gaps impede a robust retrospective environmental risk assessment
Kroll, A., Kienle, C., & Junghans, M. (2025). Organic UV-filters and freshwater organisms: data gaps impede a robust retrospective environmental risk assessment. Environmental Sciences Europe, 37, 6 (13 pp.). https://doi.org/10.1186/s12302-024-01046-w |
| Incorporation of sediment‐ and soil‐specific aspects in the criteria for Reporting and Evaluating Ecotoxicity Data (CRED)
Casado‐Martinez, M. C., Dell'Ambrogio, G., Campiche, S., Kroll, A., Lauber, E., Marti‐Roura, M., … Ferrari, B. J. D. (2024). Incorporation of sediment‐ and soil‐specific aspects in the criteria for Reporting and Evaluating Ecotoxicity Data (CRED). Integrated Environmental Assessment and Management, 20(6), 2162-2174. https://doi.org/10.1002/ieam.4948 |
| Beyond target chemicals: updating the NORMAN prioritisation scheme to support the EU chemicals strategy with semi-quantitative suspect/non-target screening data
Dulio, V., Alygizakis, N., Ng, K., Schymanski, E. L., Andres, S., Vorkamp, K., … von der Ohe, P. C. (2024). Beyond target chemicals: updating the NORMAN prioritisation scheme to support the EU chemicals strategy with semi-quantitative suspect/non-target screening data. Environmental Sciences Europe, 36, 113 (22 pp.). https://doi.org/10.1186/s12302-024-00936-3 |
| Aquatic thresholds for ionisable substances, such as diclofenac, should consider pH-specific differences in uptake and toxicity
Kroll, A., von der Ohe, P. C., Köhler, H. R., Sellier, O., & Junghans, M. (2024). Aquatic thresholds for ionisable substances, such as diclofenac, should consider pH-specific differences in uptake and toxicity. Science of the Total Environment, 908, 168222 (9 pp.). https://doi.org/10.1016/j.scitotenv.2023.168222 |
| The ConSoil project: an integrated framework for monitoring plant protection product residues in agricultural soil
Renaud, M., Campiche, S., Dell'Ambrogio, G., Marti‐Roura, M., Junghans, M., & Ferrari, B. J. D. (2024). The ConSoil project: an integrated framework for monitoring plant protection product residues in agricultural soil. European Journal of Soil Science, 75(3), e13505 (8 pp.). https://doi.org/10.1111/ejss.13505 |
| Linking chemical surface water monitoring and pesticide regulation in selected European countries
Spycher, S., Kalf, D., Lahr, J., Gönczi, M., Lindström, B., Pace, E., … Kroll, A. (2024). Linking chemical surface water monitoring and pesticide regulation in selected European countries. Environmental Science and Pollution Research, 31, 43432-43450. https://doi.org/10.1007/s11356-024-33865-y |
| Methodology proposal for the derivation of Soil Guideline Values for Plant Protection Product residues. Part 2 - recommendations for the derivation of Soil Guideline Values
Marti-Roura, M., Dell'Ambrogio, G., Campiche, S., Wong, J., Junghans, M., Renaud, M., & Ferrari, B. J. D. (2023). Methodology proposal for the derivation of Soil Guideline Values for Plant Protection Product residues. Part 2 - recommendations for the derivation of Soil Guideline Values. Swiss Centre for Applied Ecotoxicology. |
| Methodology proposal for the derivation of soil guideline values for plant protection product residues. Part 1 - Review and comparison of international methodologies
Marti-Roura, M., Dell'Ambrogio, G., Campiche, S., Wong, J., Junghans, M., Renaud, M., & Ferrari, B. J. D. (2023). Methodology proposal for the derivation of soil guideline values for plant protection product residues. Part 1 - Review and comparison of international methodologies. Swiss Centre for Applied Ecotoxicology. |
| Assessing the KEMI approach for determining the size of mixture assessment factors needed to protect aquatic receptors from chemical mixtures in surface waters
Price, P. S., & Junghans, M. (2023). Assessing the KEMI approach for determining the size of mixture assessment factors needed to protect aquatic receptors from chemical mixtures in surface waters. Current Opinion in Toxicology, 36, 100426 (6 pp.). https://doi.org/10.1016/j.cotox.2023.100426 |
| Insecticides dans les eaux de surface. Quels risques représentent les insecticides pyréthrinoïdes et organophosphorés en Suisse?
Daouk, S., Doppler, T., Scheidegger, R., Kroll, A., Junghans, M., Moschet, C., & Singer, H. (2022). Insecticides dans les eaux de surface. Quels risques représentent les insecticides pyréthrinoïdes et organophosphorés en Suisse? Aqua & Gas, 102(4), 58-66. |
| Comment on environmental quality standards for diclofenac derived under the European Water Framework Directive: 1. Aquatic organisms
Maack, G., Äystö, L., Carere, M., Clausen, H., James, A., Junghans, M., … Lettieri, T. (2022). Comment on environmental quality standards for diclofenac derived under the European Water Framework Directive: 1. Aquatic organisms. Environmental Sciences Europe, 34(1), 24 (5 pp.). https://doi.org/10.1186/s12302-022-00599-y |
| PFAS-Belastung im Kanton St. Gallen. Erste Erkenntnisse in Fliessegewässern, Fischen und Abwasser
Wüthrich, J., Achermann, S., Leib, V., & Junghans, M. (2022). PFAS-Belastung im Kanton St. Gallen. Erste Erkenntnisse in Fliessegewässern, Fischen und Abwasser. Aqua & Gas, 102(12), 42-50. |
| Editorial: women in regulatory toxicology: 2021
Ågerstrand, M., Beronius, A., Junghans, M., & Martin, O. (2022). Editorial: women in regulatory toxicology: 2021. Frontiers in Toxicology, 4, 1-3. https://doi.org/10.3389/ftox.2022.1056285 |
| Emissionsbasierte Bauproduktebewertung. Gewässerschutz an der Quelle: nachhaltiges Bauen durch Anwendung eines neuen Konzepts
Burkhardt, M., Rohr, M., Tietje, O., Klingler, M., Savi, D., & Junghans, M. (2021). Emissionsbasierte Bauproduktebewertung. Gewässerschutz an der Quelle: nachhaltiges Bauen durch Anwendung eines neuen Konzepts. Aqua & Gas, 101(4), 55-64. |
| Environmental risk of pesticides for fish in small- and medium-sized streams of Switzerland
Werner, I., Schneeweiss, A., Segner, H., & Junghans, M. (2021). Environmental risk of pesticides for fish in small- and medium-sized streams of Switzerland. Toxics, 9(4), 79 (15 pp.). https://doi.org/10.3390/toxics9040079 |
| Effect modeling quantifies the difference between the toxicity of average pesticide concentrations and time-variable exposures from water quality monitoring
Ashauer, R., Kuhl, R., Zimmer, E., & Junghans, M. (2020). Effect modeling quantifies the difference between the toxicity of average pesticide concentrations and time-variable exposures from water quality monitoring. Environmental Toxicology and Chemistry, 39(11), 2158-2168. https://doi.org/10.1002/etc.4838 |
| Temporal variation of pesticide mixtures in rivers of three agricultural watersheds during a major drought in the Western Cape, South Africa
Curchod, L., Oltramare, C., Junghans, M., Stamm, C., Dalvie, M. A., Röösli, M., & Fuhrimann, S. (2020). Temporal variation of pesticide mixtures in rivers of three agricultural watersheds during a major drought in the Western Cape, South Africa. Water Research X, 6, 100039 (12 pp.). https://doi.org/10.1016/j.wroa.2019.100039 |
| The NORMAN Association and the European Partnership for Chemicals Risk Assessment (PARC): let's cooperate!
Dulio, V., Koschorreck, J., van Bavel, B., van den Brink, P., Hollender, J., Munthe, J., … Slobodnik, J. (2020). The NORMAN Association and the European Partnership for Chemicals Risk Assessment (PARC): let's cooperate!. Environmental Sciences Europe, 32(1), 100 (11 pp.). https://doi.org/10.1186/s12302-020-00375-w |
| Pesticides dans les eaux de surface. Mesures de réduction et monitoring - synthèse des apprentissages liés aux projets «Phytos 62A»
Daouk, S., Doppler, T., Wittmer, I., Junghans, M., Coster, M., & Stamm, C. (2019). Pesticides dans les eaux de surface. Mesures de réduction et monitoring - synthèse des apprentissages liés aux projets «Phytos 62A». Aqua & Gas, 99(1), 66-73. |
