Publication Details

Category Text Publication
Reference Category Journals
DOI 10.1186/s12302-017-0121-1
Title (Primary) Project house water: a novel interdisciplinary framework to assess the environmental and socioeconomic consequences of flood-related impacts
Author Crawford, S.E.; Brüll, C.; Aumeier, B.; Brinkmann, M.; Classen, E.; Esser, V.; Ganal, C.; Kaip, E.; Häussling, R.; Lehmkuhl, F.; Letmathe, P.; Müller, A.-K.; Rabinovitch, I.; Reicherter, K.; Schwarzbauer, J.; Schmitt, M.; Stauch, G.; Wessling, M.; Yüce, S.; Hecker, M.; Kidd, K.A.; Altenburger, R.; Brack, W.; Schüttrumpf, H.; Hollert, H.
Source Titel Environmental Sciences Europe
Year 2017
Department BIOTOX; WANA
Volume 29
Page From art. 23
Language englisch
Keywords Flood event; Sediment mobilization; Erosion; Fish exposure; Biomarker; Sediment toxicity; Renaturation; Emergency drinking water treatment; (micro)pollutants removal
Abstract Protecting our water resources in terms of quality and quantity is considered one of the big challenges of the twenty-first century, which requires global and multidisciplinary solutions. A specific threat to water resources, in particular, is the increased occurrence and frequency of flood events due to climate change which has significant environmental and socioeconomic impacts. In addition to climate change, flooding (or subsequent erosion and run-off) may be exacerbated by, or result from, land use activities, obstruction of waterways, or urbanization of floodplains, as well as mining and other anthropogenic activities that alter natural flow regimes. Climate change and other anthropogenic induced flood events threaten the quantity of water as well as the quality of ecosystems and associated aquatic life. The quality of water can be significantly reduced through the unintentional distribution of pollutants, damage of infrastructure, and distribution of sediments and suspended materials during flood events. To understand and predict how flood events and associated distribution of pollutants may impact ecosystem and human health, as well as infrastructure, large-scale interdisciplinary collaborative efforts are required, which involve ecotoxicologists, hydrologists, chemists, geoscientists, water engineers, and socioeconomists. The research network “project house water” consists of a number of experts from a wide range of disciplines and was established to improve our current understanding of flood events and associated societal and environmental impacts. The concept of project house and similar seed fund and boost fund projects was established by the RWTH Aachen University within the framework of the German excellence initiative with support of the German research foundation (DFG) to promote and fund interdisciplinary research projects and provide a platform for scientists to collaborate on innovative, challenging research. Project house water consists of six proof-of-concept studies in very diverse and interdisciplinary areas of research (ecotoxicology, water, and chemical process engineering, geography, sociology, economy). The goal is to promote and foster high-quality research in the areas of water research and flood-risk assessments that combine and build off-laboratory experiments with modeling, monitoring, and surveys, as well as the use of applied methods and techniques across a variety of disciplines.
Persistent UFZ Identifier
Crawford, S.E., Brüll, C., Aumeier, B., Brinkmann, M., Classen, E., Esser, V., Ganal, C., Kaip, E., Häussling, R., Lehmkuhl, F., Letmathe, P., Müller, A.-K., Rabinovitch, I., Reicherter, K., Schwarzbauer, J., Schmitt, M., Stauch, G., Wessling, M., Yüce, S., Hecker, M., Kidd, K.A., Altenburger, R., Brack, W., Schüttrumpf, H., Hollert, H. (2017):
Project house water: a novel interdisciplinary framework to assess the environmental and socioeconomic consequences of flood-related impacts
Environ. Sci. Eur. 29 , art. 23 10.1186/s12302-017-0121-1