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Considering fish as recipients of ecosystem services provides a framework to formally link baseline, development, and post-operational monitoring programs and improve aquatic impact assessments for large scale developments
Brown, C. J. M., Curry, R. A., Gray, M. A., Lento, J., MacLatchy, D. L., Monk, W. A., … Munkittrick, K. R. (2022). Considering fish as recipients of ecosystem services provides a framework to formally link baseline, development, and post-operational monitoring programs and improve aquatic impact assessments for large scale developments. Environmental Management, 70(2), 350-367. https://doi.org/10.1007/s00267-022-01665-0
Noble gas tracers in gas streams at Norwegian CO<sub>2</sub> capture plants
Weber, U. W., Kipfer, R., Horstmann, E., Ringrose, P., Kampman, N., Tomonaga, Y., … Sundal, A. (2021). Noble gas tracers in gas streams at Norwegian CO2 capture plants. International Journal of Greenhouse Gas Control, 106, 103238 (11 pp.). https://doi.org/10.1016/j.ijggc.2020.103238
LéXPLORE: a floating laboratory on Lake Geneva offering unique lake research opportunities
Wüest, A., Bouffard, D., Guillard, J., Ibelings, B. W., Lavanchy, S., Perga, M. ‐E., & Pasche, N. (2021). LéXPLORE: a floating laboratory on Lake Geneva offering unique lake research opportunities. Wiley Interdisciplinary Reviews: Water, 8(5), e1544 (15 pp.). https://doi.org/10.1002/wat2.1544
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
Active learning for anomaly detection in environmental data
Russo, S., Lürig, M., Hao, W., Matthews, B., & Villez, K. (2020). Active learning for anomaly detection in environmental data. Environmental Modelling and Software, 134, 104869 (11 pp.). https://doi.org/10.1016/j.envsoft.2020.104869
High resolution mass spectrometry-based non-target screening can support regulatory environmental monitoring and chemicals management
Hollender, J., van Bavel, B., Dulio, V., Farmen, E., Furtmann, K., Koschorreck, J., … Tornero, V. (2019). High resolution mass spectrometry-based non-target screening can support regulatory environmental monitoring and chemicals management. Environmental Sciences Europe, 31(1), 42 (11 pp.). https://doi.org/10.1186/s12302-019-0225-x
Faster and safer: research priorities in water and health
Setty, K., Loret, J. F., Courtois, S., Hammer, C. C., Hartemann, P., Lafforgue, M., … Bartram, J. (2019). Faster and safer: research priorities in water and health. International Journal of Hygiene and Environmental Health, 593-606. https://doi.org/10.1016/j.ijheh.2019.03.003
Tracking pyrethroid toxicity in surface water samples: exposure dynamics and toxicity identification tools for laboratory tests with <i>Hyalella azteca</i> (Amphipoda)
Deanovic, L. A., Stillway, M., Hammock, B. G., Fong, S., & Werner, I. (2018). Tracking pyrethroid toxicity in surface water samples: exposure dynamics and toxicity identification tools for laboratory tests with Hyalella azteca (Amphipoda). Environmental Toxicology and Chemistry, 37(2), 462-472. https://doi.org/10.1002/etc.3979
Emerging pollutants in the EU: 10 years of NORMAN in support of environmental policies and regulations
Dulio, V., van Bavel, B., Brorström-Lundén, E., Harmsen, J., Hollender, J., Schlabach, M., … Koschorreck, J. (2018). Emerging pollutants in the EU: 10 years of NORMAN in support of environmental policies and regulations. Environmental Sciences Europe, 30(1), 5 (13 pp.). https://doi.org/10.1186/s12302-018-0135-3
The predictability of a lake phytoplankton community, over time-scales of hours to years
Thomas, M. K., Fontana, S., Reyes, M., Kehoe, M., & Pomati, F. (2018). The predictability of a lake phytoplankton community, over time-scales of hours to years. Ecology Letters, 21(5), 619-628. https://doi.org/10.1111/ele.12927
Thermostatted dual-channel portable capillary electrophoresis instrument
Koenka, I. J., Küng, N., Kubáň, P., Chwalek, T., Furrer, G., Wehrli, B., … Hauser, P. C. (2016). Thermostatted dual-channel portable capillary electrophoresis instrument. Electrophoresis, 37(17-18), 2368-2375. https://doi.org/10.1002/elps.201600235
A primary FIsh Gill Cell System (FIGCS) for environmental monitoring of river waters
Minghetti, M., Schnell, S., Chadwick, M. A., Hogstrand, C., & Bury, N. R. (2014). A primary FIsh Gill Cell System (FIGCS) for environmental monitoring of river waters. Aquatic Toxicology, 154, 184-192. https://doi.org/10.1016/j.aquatox.2014.05.019
Conquering the outdoors with on-site mass spectrometry
Mächler, L., Brennwald, M. S., Tyroller, L., Livingstone, D. M., & Kipfer, R. (2014). Conquering the outdoors with on-site mass spectrometry. Chimia, 68(3), 155-159. https://doi.org/10.2533/chimia.2014.155
Estimating sewer leakage from continuous tracer experiments
Rieckermann, J., Bareš, V., Kracht, O., Braun, D., & Gujer, W. (2007). Estimating sewer leakage from continuous tracer experiments. Water Research, 41(9), 1960-1972. https://doi.org/10.1016/j.watres.2007.01.024
Impacts of stream acidification on litter breakdown: implications for assessing ecosystem functioning
Dangles, O., Gessner, M. O., Guerold, F., & Chauvet, E. (2004). Impacts of stream acidification on litter breakdown: implications for assessing ecosystem functioning. Journal of Applied Ecology, 41(2), 365-378. https://doi.org/10.1111/j.0021-8901.2004.00888.x
A case for using litter breakdown to asses functinal stream integrity
Gessner, M. O., & Chauvet, E. (2002). A case for using litter breakdown to asses functinal stream integrity. Ecological Applications, 12(2), 498-510. https://doi.org/10.1890/1051-0761(2002)012[0498:ACFULB]2.0.CO;2
A case for using litter breakdown to assess functional stream integrity
Gessner, M. O., & Chauvet, E. (2002). A case for using litter breakdown to assess functional stream integrity. Ecological Applications, 12(2), 498-510. https://doi.org/10.2307/3060958