Your search keyword '"Sebastian Hudjetz"' showing total 10 results

1. Hydrotoxikologie — Eine Methodik zur Bewertung schadstoffbelasteter Sedimente in Stauseen

Author

Catrina Cofalla, Henner Hollert, Hannah Schaffrath, Stefanie Lorke, Sebastian Hudjetz, and Holger Schüttrumpf

Subjects

Environmental science, Water Science and Technology

Published

2014

2. An attempt to assess the relevance of flood events—biomarker response of rainbow trout exposed to resuspended natural sediments in an annular flume

Author

Andreas Schäffer, Holger Schüttrumpf, Catrina Cofalla, Henner Hollert, Markus Brinkmann, Sebastian Hudjetz, Henning Herrmann, and Ulrike Kammann

Subjects

Fish Proteins, Geologic Sediments, Health, Toxicology and Mutagenesis, chemistry.chemical_compound, Water column, Cytochrome P-450 CYP1A1, Animals, Bile, Environmental Chemistry, Ecotoxicology, Polycyclic Aromatic Hydrocarbons, Pollutant, Sediment, General Medicine, Contamination, Pollution, Floods, Flume, Liver, chemistry, Oncorhynchus mykiss, Environmental chemistry, Pyrene, Particulate Matter, Rainbow trout, Biomarkers

Abstract

There is a consensus within the scientific community that sediments act as a long-term sink for a variety of organic and inorganic pollutants, which, however, can re-enter the water column upon resuspension of deposited material under certain hydraulic conditions such as flood events. Within the implementation of the European Water Framework Directive, it is important to understand the potential short- and long-term impact of suspended particulate matter (SPM)-associated contaminants on aquatic organisms as well as the related uptake mechanisms for a sound risk assessment. To elucidate the effects of sediment-bound organic pollutants, such as polycyclic aromatic hydrocarbons (PAHs), rainbow trout (Oncorhynchus mykiss) were exposed to three resuspended natural sediments with different contamination levels. Physicochemical parameters including dissolved oxygen concentration, pH and temperature, total PAH concentration in sediments and SPM as well as different biomarkers of exposure in fish (7-ethoxyresorufin O-deethylase activity, biliary PAH metabolites, micronuclei, and lipid peroxidation) were measured following seven days of exposure within an annular flume, a device to assess erosion and deposition processes of cohesive sediment. Concentrations of PAHs in SPM remained constant and represented the different contamination levels in the un-suspended sediments. Significant differences in bile metabolite concentrations as well as in 7-ethoxyresorufin O-deethylase induction compared to control experiments (untreated animals and animals that were exposed in the annular flume without sediment) were observed for all exposure scenarios. The ratio between 1-hydroxypyrene in bile from fish exposed to the three different contamination levels was 1.0:3.6:10.7 and correlated well with (1) the ratio of pyrene concentrations in corresponding sediments which was 1.0:3.1:12.7 and (2) with the ratio of particle-bound pyrene in SPM which was 1.0:2.7:11.7. In contrast, hepatic lipid peroxidation and micronuclei formation represented the different contamination levels less conclusive. The results of this study clearly demonstrate that firmly bound PAH from aged sediments can become bioaccessible upon resuspension under flood-like conditions and are readily absorbed by aquatic organisms such as rainbow trout. Associated short-term effects were clearly documented and possible adverse long-term impacts due to genotoxicity are likely to follow.

Published

2013

3. How flood events affect rainbow trout: Evidence of a biomarker cascade in rainbow trout after exposure to PAH contaminated sediment suspensions

Author

John P. Giesy, Henner Hollert, Michelle Chinoraks, Jan Wölz, Andreas Schäffer, Catrina Cofalla, Holger Schüttrumpf, Markus Brinkmann, Steve Wiseman, Jochen Kuckelkorn, Ulrike Kammann, Markus Hecker, Michael Patrick Hennig, and Sebastian Hudjetz

Subjects

Chrysene, Geologic Sediments, Ecology, Health, Toxicology and Mutagenesis, Metabolite, Temperature, Sediment, Biota, Context (language use), Environmental Exposure, Environmental exposure, Aquatic Science, Survival Analysis, Floods, chemistry.chemical_compound, chemistry, Oncorhynchus mykiss, Environmental chemistry, Animals, Pyrene, Rainbow trout, Polycyclic Aromatic Hydrocarbons, Biomarkers, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Increasing frequency and intensity of flood events are major concerns in the context of climate change. In addition to the direct hydrological implications of such events, potential ecotoxicological impacts are of increasing interest. It is vital to understand mechanisms of contaminant uptake from suspended particulate matter (SPM) and related effects in aquatic biota under realistic conditions. However, little is known about these processes. Due to recent changes in climate, during summer temperatures of German rivers frequently exceed 25°C. Effects of re-suspension of sediments on biota under elevated temperature regimes are likely to differ from those under lower temperature regimes. To elucidate this differential response of aquatic vertebrates, rainbow trout were exposed to suspensions of sediment from the Rhine River that was spiked with a mixture of polycyclic aromatic hydrocarbons (PAH). The experiments were conducted under two different temperature regimes (24°C or 12°C). Physicochemical parameters, including concentration of PAHs in SPM, and biomarkers in fish (biliary PAH metabolites, 7-ethoxyresorufin O-deethylase activity, lipid peroxidation (LPO), mRNA expression of some genes and micronuclei) were measured over the course of a 12d study. Concentrations of pyrene and phenanthrene decreased over time, while no decrease was observed for chrysene and benzo[a]pyrene. The biomarker cascades, more specifically the temporal dynamics of biomarker reactions, did not only show quantitative differences (i.e. different induction intensity or rate of biomarker responses) at the two temperatures but also qualitative differences, i.e. different biomarker responses were observed. A slight significant increase of biliary metabolites in fish was observed in un-spiked sediment at 24°C. In bile of fish exposed to PAH spiked sediment concentrations of 1-hydroxypyrene and 1-hydroxyphenanthrene increased significantly during the first two days, and then decreased. At 12°C uptake of PAHs was slower and maximum metabolite concentrations in bile were less than in fish exposed at 24°C. Following a latency of two days, concentrations of PAH metabolites in bile of fish exposed at 24°C were followed by a peak in LPO. PAHs spiked into sediments under laboratory conditions were significantly more bioavailable than the PAHs that were already present in un-spiked field-collected sediments.

Published

2013

4. A combined hydraulic and toxicological approach to assess re-suspended sediments during simulated flood events—part II: an interdisciplinary experimental methodology

Author

Jan Wölz, Andreas Schäffer, Sebastian Roger, Catrina Cofalla, Henner Hollert, Holger Schüttrumpf, Roy M. Frings, Markus Brinkmann, Sebastian Hudjetz, Markus Hecker, Burkhard Schmidt, and Ulrike Kammann

Subjects

Hydrology, Lead (geology), Flood myth, Stratigraphy, Sediment contamination, Environmental science, Climate change, Earth-Surface Processes

Abstract

Purpose Flood events are expected to increase both in intensity and frequency due to climate change in the near future. From an environmental toxicology perspective, there is concern that such flood events could lead to the remobilization of contaminated sediment layers in rivers. The aim of this pilot study was to establish a novel and interdisciplinary framework combining methods of hydrodynamic engineering and ecotoxicological assessment to enable investigation of the potential risks associated with such remobilization events.

Published

2012

5. Toxizität und Risk Assessment fluvialer Sedimente und Schwebstoffe: Eine kurze Übersicht bisheriger und neuerer Entwicklungen

Author

Jan Wölz, Henner Hollert, Sebastian Roger, Markus Brinkmann, Sabine Ulrike Gerbersdorf, Catrina Cofalla, Holger Schüttrumpf, Arnold V. Hallare, Thomas-Benjamin Seiler, Steffen Keiter, and Sebastian Hudjetz

Subjects

Suspended solids, Water Framework Directive, Environmental engineering, Environmental science, Sediment, Water quality, Risk assessment, Water resource management, Water pollution, Pollution, Surface water, Aquatic organisms

Abstract

Background In recent years, sediments have become a central topic of scientific and public discussion as an important factor for determining water quality. While the quality of surface waters in Germany has significantly improved during the past years, highly contaminated sediments still create a considerable threat to the quality of several European catchment areas. Main features Here, we summarize different concepts and methods for the assessment of sediment quality and report on some novel integrative test methods for assessing sediment toxicity including contaminant re-mobilization during simulated re-suspension events. Results and discussionCurrently, different approaches for assessment of sediment pollution exist. While instrumental chemical analyses are not suitable to accurately describe sediment toxicity, combinations of biological and chemical test procedures and integrated approaches, for example weight-of-evidence studies and effect-directed analysis (EDA), have the potential to identify key contaminants. Inter-disciplinary studies combining hydrodynamic and toxicological aspects coupled to real exposure of aquatic organisms to contaminants are currently being developed. ConclusionsMonitoring and assessment of sediment quality are of increasing importance, not only for national legislation but also for the implementation of the European Water Framework Directive (WFD). Integrated approaches for the determination of sediment stability play a key role in the appropriate sediment-monitoring strategies.

Published

2010

6. A combined hydraulic and toxicological approach to assess re-suspended sediments during simulated flood events. Part I–multiple biomarkers in rainbow trout

Author

Markus Hecker, Holger Schüttrumpf, Xiaowei Zhang, John P. Giesy, Sebastian Roger, Sebastian Hudjetz, Jan Wölz, Catrina Cofalla, Henner Hollert, Ulrike Kammann, Markus Brinkmann, and Steve Wiseman

Subjects

Pollution, Pollutant, Flood myth, Stratigraphy, media_common.quotation_subject, Sediment, Aquatic animal, medicine.disease_cause, Environmental chemistry, medicine, Environmental science, Ecotoxicology, Rainbow trout, Genotoxicity, Earth-Surface Processes, media_common

Abstract

One of the central issues related to global changes in weather is the increasing occurrence of flood events that can result in the re-suspension of contaminated sediments in rivers. Here, we report on a proof-of-concept study combining hydraulic engineering and ecotoxicology in a new interdisciplinary approach to assess the toxicity of re-suspended polluted sediments after a simulated flood event. Rainbow trout (Oncorhynchus mykiss) were exposed for 5 days under simulated flood conditions in an annular flume with artificial sediments that were spiked with a mixture of polycyclic aromatic hydrocarbons (PAH) at environmentally relevant concentrations. Specifically, the objective of this study was to bridge the gap between the physical re-suspension of pollutants and resulting toxicological impacts on aquatic organisms. A suite of different molecular, biochemical and histological markers was used to test the hypothesis that re-suspension of sediments can lead to re-mobilization of PAHs and subsequently to effects on aquatic organisms. The micronucleus frequency was significantly 4.3-fold elevated after exposure. There was no significant indication of Aryl hydrocarbon receptor signaling (no EROD induction or increased CYP1A protein content, only slight induction of CYP1A gene expression). Biliary metabolite concentration was the most sensitive marker of PAH exposure. Results for other biomarkers (glutathione-S-transferase, catalase and lipid peroxidation) were inconclusive. In combination with chemical analyses of suspended matter, the presented approach will be used to improve understanding of the re-mobilization of pollutants from sediments in support of environmental risk assessment.

Published

2010

7. In search for the ecological and toxicological relevance of sediment re-mobilisation and transport during flood events

Author

Henner Hollert, Sebastian Roger, Andreas Schäffer, Holger Schüttrumpf, Markus Brinkmann, Catrina Cofalla, Jan Wölz, Markus Hecker, Burkhard Schmidt, Ulrike Kammann, Sebastian Hudjetz, and Gottfried Lennartz

Subjects

Pollution, Flood myth, Ecology, Hydraulic engineering, Stratigraphy, media_common.quotation_subject, Climate change, Aquatic organisms, Environmental science, Ecosystem, Environmental impact assessment, Sediment transport, Earth-Surface Processes, media_common

Abstract

In response to increasing concerns about the potential toxicological impacts of (extreme) flood events, scientists from several disciplines have joined to form the interdisciplinary research project named FLOODSEARCH. FLOODSEARCH is one of the recent Pathfinder Projects supported by the German Excellence Initiative via the Exploratory Research Space at RWTH Aachen (ERS). FLOODSEARCH aims to combine methodologies of hydraulic engineering and ecotoxicology in a new interdisciplinary approach to assess the risks associated with the re-mobilisation of particulate bound contaminants often observed after severe flood events. Impacts of extreme flood events and aspects of re-mobilisation of sediment-bound toxic compounds will be characterised and evaluated in controlled experiments fusing flood simulation technologies with biological effects assessment. The overall goal is to establish a novel and more realistic approach towards flood event testing that can be applied to a number of different questions and species. Specifically, model aquatic species such as rainbow trout (Onchorhynchus mykiss) will be exposed to particle-bound contaminants in flood-like conditions in a specifically designed annular flume that permits monitoring of both physical/chemical and biological parameter. Ultimately, this approach will assist to further our understanding of the potential biological risks associated with increasingly frequent extreme flood events, e.g., as a consequence of climate change, by bridging the gap between the physical (re-)mobilisation of contaminants and resulting toxicological impacts on aquatic organisms. Thus, it is the objective of the project to derive relationships between the hydrodynamic parameters such as velocities and turbulences, the parameters associated to sediment transport such as sediment concentration and grain sizes and the biological parameters.

Published

2008

8. Über die Notwendigkeit der wirkungsorientierten Analytik in einer umfassenden Wasserforschung

Author

Werner Manz, Henner Hollert, Jan Schwarzbauer, Thomas Braunbeck, Hans-Toni Ratte, Werner Brack, Evelyn Claus, Peter Heininger, Sebastian Hudjetz, Andreas Schäffer, Tobias Schulze, Georg Reifferscheid, and Wolfgang Ahlf

Subjects

Political science, Pollution, Humanities

Abstract

Wasser ist nicht nur der Ursprung allen Lebens auf der Erde, sondern mit einem geschatzten Volumen von 1,4 Mrd. Kubikkilometern auch sein groster und wichtigster Rohstoff. Die Agenda 21 (1992) der Vereinten Nationen beschreibt fur alle wesentlichen Politikbereiche die Anforderungen an eine umweltgerechte und nachhaltige Entwicklung. Zwei Kapitel dieser Agenda sind dem Thema Wasser – dem Schutz der Meere und Kustengewasser sowie dem Schutz der Suswasserressourcen – gewidmet. Steigender Wasserverbrauch, nicht-nachhaltige Nutzungsformen der Wasserressourcen und zunehmende Wasserverschmutzung fuhren in vielen Regionen der Welt zu einer bedrohlichen Verknappung des Trinkwassers und gefahrden den Erhalt von Naturraumen und Okosystemen. Wasser ist deshalb eines der zentralen themen des globalen Wandels, zu dessen Bewaltigung auch die Wasserforschung substanziell beitragen muss. In dieser UWSF-Ausgabe beginnt eine Serie Wasser – elementare und strategische Ressource des 21. Jahrhunderts von Lehn und Parodi, mit der in drei Beitragen die hintergrunde einer konstatierten „globalen Wasserkrise“ aufgearbeitet und Vorschlage eines nachhaltigen Umgangs mit Wasserressourcen skizziert werden (Lehn und Parodi 2009). die anhaltende Belastung aquatischer Okosysteme mit vom Menschen hergestellten Fremdstoffen (Xenobiotika) bleibt trotz der unbestreitbaren grosen Fortschritte in der gewasserreinhaltung auch unter den Bedingungen der modernen westlichen Gesellschaften eine der grosten Herausforderungen. Die Grunde dafur sind vielschichtig. Abwasser aus diversen menschlichen Aktivitaten tragen jahrlich weltweit etwa 600 Mio. t Schadstoffe in Gewasser ein; von uber 100.000 registrierten chemischen Verbindungen befinden sich zwischen 30.000 und 70.000 in nennenswerten Mengen in taglichem Gebrauch (Schwarzenbach et al. 2006). die identifikation von umweltschadstoffen, die Auf10.1007/s12302-009-0068-y

Published

2009

9. Physiologically-based toxicokinetic models help identifying the key factors affecting contaminant uptake during flood events

Author

Henner Hollert, Georg Reifferscheid, Catrina Cofalla, Kathrin Eichbaum, Sebastian Buchinger, Holger Schüttrumpf, Ulrike Kammann, Markus Brinkmann, Thomas G. Preuss, and Sebastian Hudjetz

Subjects

Physiologically based pharmacokinetic modelling, Geologic Sediments, Pyrenes, Flood myth, Health, Toxicology and Mutagenesis, Poison control, Sediment, Bioconcentration, Aquatic Science, Particulates, Contamination, Motor Activity, Models, Biological, Risk Assessment, Floods, Toxicology, Environmental chemistry, Oncorhynchus mykiss, Environmental science, Animals, Bile, Rainbow trout, Cardiac Output, Water Pollutants, Chemical

Abstract

As a consequence of global climate change, we will be likely facing an increasing frequency and intensity of flood events. Thus, the ecotoxicological relevance of sediment re-suspension is of growing concern. It is vital to understand contaminant uptake from suspended sediments and relate it to effects in aquatic biota. Here we report on a computational study that utilizes a physiologically based toxicokinetic model to predict uptake, metabolism and excretion of sediment-borne pyrene in rainbow trout (Oncorhynchus mykiss). To this end, data from two experimental studies were compared with the model predictions: (a) batch re-suspension experiments with constant concentration of suspended particulate matter at two different temperatures (12 and 24°C), and (b) simulated flood events in an annular flume. The model predicted both the final concentrations and the kinetics of 1-hydroxypyrene secretion into the gall bladder of exposed rainbow trout well. We were able to show that exhaustive exercise during exposure in simulated flood events can lead to increased levels of biliary metabolites and identified cardiac output and effective respiratory volume as the two most important factors for contaminant uptake. The results of our study clearly demonstrate the relevance and the necessity to investigate uptake of contaminants from suspended sediments under realistic exposure scenarios.

Published

2013

10. A new approach to investigate the interactions between sediment transport and ecotoxicological processes during flood events

Author

Catrina Cofalla, Roy M. Frings, Markus Hecker, Andreas Schäffer, Markus Brinkmann, Sebastian Hudjetz, Sebastian Roger, Ulrike Kammann, Sabine Ulrike Gerbersdorf, Gottfried Lennartz, Holger Schüttrumpf, and Henner Hollert

Subjects

Pollutant, geography, geography.geographical_feature_category, Flood myth, business.industry, Ecology, Environmental resource management, Sediment, Estuary, Pollution, Dredging, Harbour, Erosion, Environmental science, business, computer, Sediment transport, computer.programming_language

Abstract

Extreme hydrodynamic events such as flood events or dredging activities bear the risk of eroding sediments in rivers, reservoirs, harbour basins or estuaries. One of the key concerns associated with these erosion processes is the re-mobilisation of sediment-bound pollutants in highly contaminated sediments. To date, much research has been conducted to characterise flow and sediment processes associated with hydrological events such as floods. Furthermore, there is a large body of literature describing the interaction of contaminants associated with particulate matter to aquatic biota. However, there is little knowledge regarding interactions between hydro-sedimentological and ecotoxicological processes. Understanding of the ecotoxicological consequences and associated risks to aquatic wildlife associated with hydraulic events can provide critical information to regulatory bodies or managing authorities. Specifically, it will aid in assessing risks associated with current management practices and will aid in developing more sustainable future management practices for waterways or harbours. Therefore, a combined experimental methodology between hydraulic engineers and ecotoxicologists was developed to investigate the ecological and toxicological relevance of sediment re-suspension and transport during erosion. An overview of this methodology is given in the present paper.

Published

2011