Your search keyword '"Chorus, Ingrid"' showing total 12 results

1. Attachment, re-mobilization, and inactivation of bacteriophage MS2 during bank filtration following simulation of a high virus load and an extreme rain event

Author

Wang, He, Kaletta, Judith, Kaschuba, Sigrid, Klitzke, Sondra, Chorus, Ingrid, and Griebler, Christian

Published

2022

2. Water and phosphorus mass balance of Lake Tegel and Schlachtensee – A modelling approach

Author

Schauser, Inke and Chorus, Ingrid

Subjects

*PHOSPHORUS in water, *WATER analysis, *WATERSHEDS, *SENSITIVITY analysis, *WATER balance (Hydrology), *MASS budget (Geophysics)

Abstract

Management models for aquatic systems can be used to determine which measures in the watershed or in the water body have been effective and/or which one should be used in future. The newly developed management models presented in the following for Lake Tegel and Schlachtensee are empirical and lake specific. The values for the unknown factors are estimated by an iterative process using optimisation routines and sensitivity analysis methods. The resulting models describe the water and phosphorus balance of each lake. The Lake Tegel water balance model calculates the unknown water inflow from the River Havel depending on the other main in- and outflows with very good validation results. The phosphorus models of both lakes quantify mixing of the upper and lower water body as well as sedimentation and release from the sediment as functions of measured variables. For Lake Tegel, management scenarios were run indicating effective management interventions. For Lake Schlachtensee, the phosphorus model captured the variations in the hypolimnion well but produced poorer results for the epilimnion because of unknown external phosphorus loads. For these the model indicated possible sources and magnitudes. [Copyright &y& Elsevier]

Published

2009

3. Accumulation of cyanobacterial toxins in freshwater “seafood” and its consequences for public health: A review

Author

Ibelings, Bas W. and Chorus, Ingrid

Subjects

CYANOBACTERIAL toxins, ENVIRONMENTAL toxicology, ENVIRONMENTAL risk assessment, SEAFOOD contamination, BIOACCUMULATION, ENVIRONMENTAL standards

Abstract

Abstract: This review summarizes and discusses the current understanding of human exposure to cyanobacterial toxins in “seafood” collected from freshwater and coastal areas. The review consists of three parts: (a) the existing literature on concentrations of cyanobacterial toxins in seafood is reviewed, and the likelihood of bioaccumulation discussed; (b) we derive cyanotoxin doses likely to occur through seafood consumption and propose guideline values for seafood and compare these to guidelines for drinking water; and (c) we discuss means to assess, control or mitigate the risks of exposure to cyanotoxins through seafood consumption. This is discussed in the context of two specific procedures, the food specific HACCP-approach and the water-specific Water Safety Plan approach by the WHO. Risks of exposure to cyanotoxins in food are sometimes underestimated. Risk assessments should acknowledge this and investigate the partitioning of exposure between drinking-water and food, which may vary depending on local circumstances. [Copyright &y& Elsevier]

Published

2007

4. Cyanobacteria: Impacts of climate change on occurrence, toxicity and water quality management

Author

Newcombe, Gayle, Chorus, Ingrid, Falconer, Ian, and Lin, Tsair-Fuh

Published

2012

5. Attenuation and colloidal mobilization of bacteriophages in natural sediments under anoxic as compared to oxic conditions.

Author

Klitzke, Sondra, Schroeder, Jendrik, Selinka, Hans-Christoph, Szewzyk, Regine, and Chorus, Ingrid

Subjects

*ATTENUATION (Physics), *POROUS materials, *SEDIMENTS, *ANOXIC zones, *COLLOIDAL carbon

Abstract

Redox conditions are known to affect the fate of viruses in porous media. Several studies report the relevance of colloid-facilitated virus transport in the subsurface, but detailed studies on the effect of anoxic conditions on virus retention in natural sediments are still missing. Therefore, we investigated the fate of viruses in natural flood plain sediments with different sesquioxide contents under anoxic conditions by considering sorption to the solid phase, sorption to mobilized colloids, and inactivation in the aqueous phase. Batch experiments were conducted under oxic and anoxic conditions at pH values between 5.1 and 7.6, using bacteriophages MS2 and PhiX174 as model viruses. In addition to free and colloid-associated bacteriophages, dissolved and colloidal concentrations of Fe, Al and organic C as well as dissolved Ca were determined. Results showed that regardless of redox conditions, bacteriophages did not adsorb to mobilized colloids, even under favourable charge conditions. Under anoxic conditions, attenuation of bacteriophages was dominated by sorption over inactivation, with MS2 showing a higher degree of sorption than PhiX174. Inactivation in water was low under anoxic conditions for both bacteriophages with about one log 10 decrease in concentration during 16 h. Increased Fe/Al concentrations and a low organic carbon content of the sediment led to enhanced bacteriophage removal under anoxic conditions. However, even in the presence of sufficient Fe/A-(hydr)oxides on the solid phase, bacteriophage sorption was low. We presume that organic matter may limit the potential retention of sesquioxides in anoxic sediments and should thus be considered for the risk assessment of virus breakthrough in the subsurface. [ABSTRACT FROM AUTHOR]

Published

2015

6. Current approaches to cyanotoxin risk assessment and risk management around the globe.

Author

Ibelings, Bas W., Backer, Lorraine C., Kardinaal, W. Edwin A., and Chorus, Ingrid

Subjects

*CYANOBACTERIAL toxins, *HEALTH risk assessment, *MICROCYSTINS, *BIOACTIVE compounds, *NEUROTOXIC agents

Abstract

Toxic cyanobacteria became more widely recognized as a potential health hazard in the 1990s, and in 1998 the World Health Organization (WHO) first published a provisional Guideline Value of 1 μg L −1 for microcystin-LR in drinking-water. In this publication we compare risk assessment and risk management of toxic cyanobacteria in 17 countries across all five continents. We focus on the three main (oral) exposure vehicles to cyanotoxins: drinking-water, water related recreational and freshwater seafood. Most countries have implemented the provisional WHO Guideline Value, some as legally binding standard, to ensure the distribution of safe drinking-water with respect to microcystins. Regulation, however, also needs to address the possible presence of a wide range of other cyanotoxins and bioactive compounds, for which no guideline values can be derived due to insufficient toxicological data. The presence of microcystins (commonly expressed as microcystin-LR equivalents) may be used as proxy for overall guidance on risk management, but this simplification may miss certain risks, for instance from dissolved fractions of cylindrospermopsin and cyanobacterial neurotoxins. An alternative approach, often taken for risk assessment and management in recreational waters, is to regulate cyanobacterial presence – as cell numbers or biomass – rather than individual toxins. Here, many countries have implemented a two or three tier alert level system with incremental severity. These systems define the levels where responses are switched from Surveillance to Alert and finally to Action Mode and they specify the short-term actions that follow. Surface bloom formation is commonly judged to be a significant risk because of the elevated concentration of microcystins in a scum. Countries have based their derivations of legally binding standards, guideline values, maximally allowed concentrations (or limits named otherwise) on very similar scientific methodology, but underlying assumptions such as bloom duration, average body size and the amount of water consumed while swimming vary according to local circumstances. Furthermore, for toxins with incomplete toxicological data elements of expert judgment become more relevant and this also leads to a larger degree of variation between countries’ thresholds triggering certain actions. Cyanobacterial blooms and their cyanotoxin content are a highly variable phenomenon, largely depending on local conditions, and likely concentrations can be assessed and managed best if the specific conditions of the locality are known and their impact on bloom occurrence are understood. Risk Management Frameworks, such as for example the Water Safety Plan concept of the WHO and the ‘bathing water profile’ of the European Union are suggested to be effective approaches for preventing human exposure by managing toxic cyanobacteria from catchment to consumer for drinking water and at recreational sites. [ABSTRACT FROM AUTHOR]

Published

2014

7. Transport and removal of viruses in saturated sand columns under oxic and anoxic conditions – Potential implications for groundwater protection.

Author

Frohnert, Anne, Apelt, Susann, Klitzke, Sondra, Chorus, Ingrid, Szewzyk, Regine, and Selinka, Hans-Christoph

Subjects

*WELLHEAD protection, *ANOXIC zones, *CONTAMINATION of drinking water, *AQUATIC microbiology, *PATHOGENIC microorganisms, *PUBLIC health

Abstract

To protect groundwater as a drinking water resource from microbiological contamination, protection zones are installed. While travelling through these zones, concentrations of potential pathogens should decline to levels that pose no risks to human health. Removal of viruses during subsurface passage is influenced by physicochemical conditions, such as oxygen concentration, which also affects virus survival. The aim of our study was to evaluate the effect of redox conditions on the removal of viruses during sand filtration. Experiments in glass columns filled with medium-grained sand were conducted to investigate virus removal in the presence and absence of dissolved oxygen. Bacteriophages MS2 and PhiX174, as surrogates for human enteric viruses were spiked in pulsed or in continuous mode and pumped through the columns at a filter velocity of about 1 m/d. Virus breakthrough curves were analyzed by calculating total viral elimination and fitted using one-dimensional transport models (CXTFIT and HYDRUS-1D). While short-term experiments with pulsed virus application showed only small differences with regard to virus removal under oxic and anoxic conditions, a long-term experiment with continuous dosing revealed a clearly lower elimination of viruses under anoxic conditions. These findings suggest that less inactivation and less adsorption of viruses in anoxic environments affect their removal. Therefore, in risk assessment studies aimed to secure drinking water resources from viral contamination and optimization of protection zones, the oxic and anoxic conditions in the subsurface should also be considered. [ABSTRACT FROM AUTHOR]

Published

2014

8. Retention and degradation of the cyanobacterial toxin cylindrospermopsin in sediments – The role of sediment preconditioning and DOM composition

Author

Klitzke, Sondra, Apelt, Susann, Weiler, Christiane, Fastner, Jutta, and Chorus, Ingrid

Subjects

*CYANOBACTERIAL toxins, *ORGANIC compounds, *MARINE sediments, *COMPOSITION of water, *SAND filtration (Water purification), *DISSOLVED organic matter, *BACTERIAL toxins, *CARBON compounds

Abstract

Abstract: Recent results show that cylindrospermopsin is more frequent and widespread in surface waters than previously assumed. Studies on the fate of CYN in sediments are lacking, but this is important if these resources are used for drinking-water production via sediment passage. Therefore, the aim of our study was to determine a) CYN retention in two sandy sediments as a function of flow rate, CYN concentration, the presence of DOM and the content of fines (1% and 4%, respectively) and b) the influence of sediment preconditioning and DOM composition of the water (aquatic DOM versus DOM released from lysed cells) on CYN degradation. Retention of CYN proved negligible under the investigated conditions. Degradation in virgin sediments showed the highest lag phases (20 days). Preconditioned sediments showed no lag phase. The presence of aquatic DOM yielded highest degradation rates (κ 1 =0.46 and 0.49day−1) without a lag phase. Readily available organic carbon sources were preferentially metabolized and hence induced a lag phase. Thus, the presence and composition of DOM in the water proved important for both CYN degradation rates in preconditioned sediments and for the lag phase. Cylindrospermopsin degradation took place solely in the sediment and not in the water body. [Copyright &y& Elsevier]

Published

2010

9. Response of cylindrospermopsin production and release in Aphanizomenon flos-aquae (Cyanobacteria) to varying light and temperature conditions

Author

Preußel, Karina, Wessel, Gabriele, Fastner, Jutta, and Chorus, Ingrid

Subjects

*CYANOBACTERIAL toxins, *APHANIZOMENON, *CYANOBACTERIA, *LAKES, *LIGHT, *WATER temperature

Abstract

Abstract: The influence of light and temperature on the cylindrospermopsin (CYN) production of two Aphanizomenon flos-aquae strains, isolated from North-eastern German lakes, was investigated with semi-continuously growing cultures. A light gradient from 10 to 60μEm−2 s−1 in combination with temperatures of 16, 20, and 25°C was tested. CYN concentrations varied by a maximum factor of 2.7 in strain 10E9 with a significant decrease with increasing temperature. Strain 22D11 showed less pronounced changes, i.e. by a factor of 1.6, and without clear relationship to temperature. Reaction patterns of CYN production to changing light intensities are different at different temperatures. In both strains CYN concentrations increase significantly at 20°C between 10 and 60μEm−2 s−1, whereas they decrease significantly at 25°C in the same light gradient. The amount of synthesised CYN is not reflected by growth rates of the strains in a uniform manner. Nonetheless several temperature–light combinations which constitute physiological stress seem to trigger CYN production and particularly CYN release from cells. The lowest growth rate observed at 16°C and 60μEm−2 s−1 of strain 22D11 may reflect photoinhibition due to the lower temperature and related limited CO2-fixation. Under these conditions, extracellular CYN concentrations increased to 58% of total CYN, while the share of extracellular CYN of all other light and temperature regimes was 11–26%. From the results and the experimental design we conclude an active release of the toxin into medium to be more likely than mere leakage from cells. [Copyright &y& Elsevier]

Published

2009

10. Seasonal dynamics of cylindrospermopsin and cyanobacteria in two German lakes

Author

Wiedner, Claudia, Rücker, Jacqueline, Fastner, Jutta, Chorus, Ingrid, and Nixdorf, Brigitte

Subjects

*RADIOACTIVE pollution of water, *WATER pollution, *RADIOACTIVE waste disposal, *RADIOACTIVE substances

Abstract

Abstract: Cylindrospermopsin (CYN) is a potent hepatotoxin produced by different cyanobacteria of the order Nostocales. Questions of major concern are: which species produce CYN, which are the seasonal patterns of CYN dynamics and how are they regulated? Therefore, we studied for the first time the seasonal dynamics of particulate and dissolved CYN concentrations, cyanobacterial abundance and environmental factors in two German lakes over 2years. Total CYN reached maximum concentrations of 0.34 and 1.80μg L−1 in Melangsee and Langer See, respectively. In both lakes, maxima of the dissolved CYN fraction occurred later in the season than those of the particulate fraction, and it reached higher concentrations. This indicates that CYN is poorly decomposed and accumulates in the water. The cyanobacterial community in both lakes included several potentially CYN-producing species that did not correlate with CYN concentrations. Significant correlations between the particulate CYN concentrations and species biovolume were only found for Aphanizomenon gracile (r s =0.803) in Langer See indicating that this species is a CYN producer. Different correlations of CYN with abiotic factors in the two lakes indicate the presence of further undetected CYN producers as well as different regulation mechanisms of their dynamics and the variability of CYN. [Copyright &y& Elsevier]

Published

2008

11. Concentrations of particulate and dissolved cylindrospermopsin in 21 Aphanizomenon-dominated temperate lakes

Author

Rücker, Jacqueline, Stüken, Anke, Nixdorf, Brigitte, Fastner, Jutta, Chorus, Ingrid, and Wiedner, Claudia

Subjects

*RADIOACTIVE pollution of water, *RADIOACTIVE waste disposal, *RADIOACTIVE substances in rivers, lakes, etc., *RADIOACTIVE waste disposal in rivers, lakes, etc.

Abstract

Abstract: The cyanobacterial toxin cylindrospermopsin (CYN) is widely distributed in German lakes, but volumetric data for risk assessment are lacking and it is unclear which cyanobacterial species produce CYN in Europe. We therefore analyzed CYN concentration and cyanobacterial composition of 21 German lakes in 2005. CYN was detected in 19 lakes (102 of 115 samples). In total, 45 samples contained particulate CYN only, and 57 contained both dissolved and particulate CYN. The concentrations were 0.002–0.484μgL−1 for particulate CYN and 0.08–11.75μgL−1 for dissolved CYN with a maximum of 12.1μgL−1 total CYN. A drinking water guideline value of 1μgL−1 proposed by Humpage and Falconer [2003. Oral toxicity of the cyanobacterial toxin CYN in male Swiss albino mice: determination of no observed adverse effect level for deriving a drinking water guideline value. Environ. Toxicol. 18, 94–103] was exceeded in 18 samples from eight lakes due to high concentrations of dissolved CYN. CYN occurrence in the German lakes could not be ascribed to the three known CYN-producing species Cylindrospermopsis raciborskii, Anabaena bergii and Aphanizomenon flos-aquae, which were detected in some lakes in low abundances. The highest correlation coefficients were observed between particulate CYN and the native Aphanizomenon gracile. It occurred in 98 CYN-positive samples, was the most abundant Nostocales and was the only Nostocales in five samples. This indicates that A. gracile is a potential CYN producer in German lakes. [Copyright &y& Elsevier]

Published

2007

12. First report on cylindrospermopsin producing Aphanizomenon flos-aquae (Cyanobacteria) isolated from two German lakes

Author

Preußel, Karina, Stüken, Anke, Wiedner, Claudia, Chorus, Ingrid, and Fastner, Jutta

Subjects

*CYANOBACTERIA, *PROKARYOTES, *LAKES

Abstract

Abstract: Three single-filament isolates of Aphanizomenon flos-aquae from two German lakes were found to produce remarkable amounts of the cyanobacterial hepatotoxin cylindrospermopsin (CYN). CYN-synthesis of the strains were evidenced both by LC-MS/MS analysis and detection of PCR products of gene fragments which are implicated in the biosynthesis of the toxin. The strains contain CYN in the range of 2.3–6.6mgg−1 of cellular dry weight. To our knowledge this is the first report of CYN in A. flos-aquae. [Copyright &y& Elsevier]

Published

2006