The invasive cyanobacterium Cylindrospermopsis raciborskii is increasingly spreading to temperate freshwater habitats world wide and is of major concern due to its ability to produce potent toxins. It is therefore important to understand the mechanisms behind the dispersal of this species. Different hypotheses have been proposed to explain the phylogeography and mechanisms underlying the recent expansion of C. raciborskii into temperate latitudes, but there is still no conclusive evidence whether the obvious ecological success of C. raciborskii is due to selection mechanisms, physiological tolerance, climatic change or radiation after the last ice age. In this study, new isolates of C. raciborskii from Europe and Africa were genetically characterized by sequencing the ITS1, PC-IGS, nifH and rpoC1 genes and compared to corresponding sequences of C. raciborskii available in GenBank in order to test different phylogeographical hypotheses. The strains were also morphologically examined and screened for production of the hepatotoxic cylindrospermopsin (CYN). We clearly demonstrate that there are phylogenetic, morphological and toxicological differences between the isolated strains. The phylogenetic analyses revealed a clustering of the strains due to geographic origin. The ITS1 and nifH genes separated into American, European and Australian-African groups, whereas the PC-IGS and rpoC1

Extracellular polymeric substances (EPS) are considered as the major cause of membrane fouling in membranebioreactors. Recent studies have revealed a linear relationship between fouling rate (increase of filtration resistanceover time) and polysaccharide (PS) concentration [1]. Several factors like the type of wastewater, sludge loading rate, sludge age, MLSS concentration, and mechanical stress are known to influence the concentration of dissolved EPS. Also, unsteady states like intermittent feeding or shifts in the oxygen supply have been identified as additionalfactors leading to an increase in EPS formation or to a change in its fouling propensity. However, no systematicinvestigation to quantify such influences has been undertaken so far. This study is aimed at determining the influenceof discontinuous excess sludge withdrawal often applied in small decentralised plants and resulting unsteady loadingrates on EPS formation and filtration resistance. The general trend of increased fouling rate at higher PS concentrationsis confirmed but data show a larger scatter which could be due to a change in the PS structure and hence their fouling potential. The levels of dissolved oxygen and nitrate which also fluctuate more strongly in MBRs withirregular sludge wastage appear to have a profound impact on EPS uptake rate and thereby on EPS concentration.

A modelling concept is presented that enables a quantitative evaluation of transport and natural attenuation processes during bank filtration. The aim is to identify ranges of degradation rates for which bank filtration is effective or ineffective. Such modelling should accompany experimental work, as otherwise the meaning of determined degradation rates for a field situation remains uncertain. The presented concept is a combination of analytical and numerical methods, solving differential equations directly for the steady state. It is implemented using FEMLABs code and demonstrates a typical idealized situation with a single well near a straight bank boundary. The method can be applied to confined, to unconfined and to partially confined/unconfined aquifers and may be extended for applications in more complex situations, including a clogging layer, galleries of pumping and recharge wells, etc.

Reactive multicomponent transport modeling was used to investigate and quantify the factors that affect redox zonation and the fate of the pharmaceutical residue phenazone during artificial recharge of groundwater at an infiltration site in Berlin, Germany. The calibrated model and the corresponding sensitivity analysis demonstrated that temporal and spatial redox zonation at the study site was driven by seasonally changing, temperature-dependent organic matter degradation rates. Breakthrough of phenazone at monitoring wells occurred primarily during the warmer summer months, when anaerobic conditions developed. Assuming a redoxsensitive phenazone degradation behavior the model results provided an excellent agreement between simulated and measured phenazone concentrations. Therefore, the fate of phenazone was shown to be indirectly controlled by the infiltration water temperature through its effect on the aquifer’s redox conditions. Other factors such as variable residence times appeared to be of less importance.

Four international projects subsidised by the European Commission should push forward the development and application of membrane bioreactor processes in the municipal wastewater sector.

The redox conditions below an artificial recharge pond in Berlin were largely dependent on seasonal temperature changes of 0-24 °C in the infiltrate. Aerobic conditions prevailed in winter, when temperatures were low, while anaerobic conditions were reached below the pond when temperatures exceeded 14 °C. In contrast to temperature changes, cyclic changes between saturated or unsaturated conditions below the pond had only a minor effect on the redox conditions. However, the intrusion of gaseous oxygen during unsaturated conditions caused a temporary reinforced increase in oxidation of particulate organic matter. The effect of variable redox conditions on the behaviour of a number of pharmaceutically active compounds, namely carbamazepine, phenazone and several phenazone-type PhACs, was investigated. Phenazone is redox sensitive and was generally fully degraded before reaching the first groundwater well, as long as oxygen was present. When conditions turned anaerobic, phenazone was not fully eliminated. 1-Acetyl-1-methyl-2-dimethyl-oxymoyl-2-phenylhydrazide (AMDOPH) and carbamazepine are very persistent drug residues. However, results suggest that AMDOPH may be slightly degradable under aerobic conditions too, but further studies will be needed to verify this statement.

Cylindrospermopsis raciborskii is considered a cyanobacterium of tropical origin and an alien species to temperate waters. However, it has been detected as far north as northern Germany. While previous studies have shown that all isolated German C. raciborskii strains are hepatotoxic, little is known about the spatial occurrence and relative frequency of this species in temperate Germany. The aim of this study was to investigate the spatial distribution and relative frequency of C. raciborskii close to its northernmost distribution limit, to characterise the habitat in which it is most likely to occur in this climatic zone and to search for any other neocyanobacterial species that might be present in German waters but has so far been overlooked. One hundred forty-two water bodies in northeast Germany were sampled from June until September 2004. All cyanobacteria species were analysed qualitatively and semiquantitatively. Besides C. raciborskii, two additional neocyanobacterial species were detected: Anabaena bergii and Aphanizomenon aphanizomenoides. For both taxa, these findings represent their northernmost occurrence and their first report from German waters. Cylindrospermopsis raciborskii was present in 27%, Anabaena bergii in 9% and phanizomenon aphanizomenoides in 7% of the samples. The occurrence of each species was analysed in relation to maximum lake depth, Secchi depth, lake volume and lake surface area. All three species were present in a wide range of habitats, but C. raciborskii and Anabaena bergii occurred significantly more often in shallow, turbid waters than in deep, transparent water bodies. None of the parameters investigated were significantly correlated with the occurrence of Aphanizomenon aphanizomenoides. In conclusion, alien thermophilic cyanobacterial species are much more widely distributed in temperate Germany than previously known. The results are discussed with respect to the possible mechanisms that enable these organisms to expand northwards.

Cylindrospermopsis raciborskii is a filamentous freshwater cyanobacterium of tropical and subtropical origin that spread out up to northern temperate zone during the last decades. Belonging to the order Nostocales it can differentiate two types of nonvegetative cells: i) heterocysts, in which it can fix molecular nitrogen, and ii) akinetes, which are resting stages, that allow the species to pass-by unfavourable growth conditions in the sediment. In the tropics and subtropics, C. raciborskii is a perennial species, which often occurs in bloom densities, and which is prominent for the synthesis of various toxins including the potent hepatotoxin cylindrospermopsin (CYN) and neurotoxic paralytic shellfish poisoning toxins. In Europe, its northernmost populations were found in North German lakes. Here, it occurs only during the summer months and has not been observed to form mass developments. The highest documented biomass it attained was 23 % of the total phytoplankton biomass. To investigate the spatial occurrence and relative frequency of C. raciborskii, we undertook a systematic survey, sampling 142 water bodies in the lowland region of Northeast Germany from June till September 2004. The cyanobacteria species present were analysed qualitatively and semi-quantitatively. C. raciborskii was a common species. It was present in 39 of the samples, of which 62 % were new findings. Further, we detected two additional thermophilic Nostocales that have not been reported from Germany before: Anabaena bergii and Aphanizomenon aphanizomenoides. These are the most northerly reports of both species so far. A. bergii occurred in 13 and A. aphanizomenoides in 19 of the 142 water bodies sampled. To elucidate the regulation mechanisms of the population dynamics of C. raciborskii and its abiotic boundaries in the newly invaded habitats furthermore long-term data series (1993 - 2005) of two polymictic shallow lakes in the study area were analyzed. Population sizes largely varied between years without any distinct long-term trend. In the annual course, filaments of the species occurred in the pelagial at temperatures above 15 - 17 °C, i.e. akinetes must have been germinated at temperatures below 15 °C. Population growth started at high rates (1.5 - 2.8 d-1) that declined continuously over the season. Growth rates were not significantly correlated with temperature but they were significantly positive correlated with the mean photosynthetic active radiation in the mixed water column (Imix). At the time population starts growing, Imix has exceeded its annual maximum, and growth rate declines with decreasing Imix. The time of akinete germination is therefore of crucial importance for the success of the population: as earlier akinetes germinate the higher the growth rate will be, resulting in a greater population size, a higher number of akinetes produced, and vice versa. Therefore, we conclude that an earlier increase of the water temperature due to global warming is a major cause for the spreading of C. raciborskii into the temperate zone.

Cylindrospermopsin (CYN) is a potent hepatotoxin produced by different cyanobacteria of the order Nostocales, which is widely distributed in freshwaters and considered a hazard to wildlife and humans. In Europe, only Aphanizomenon flos-aquae is identified as CYN producer so far and the seasonal variability of CYN was not studied yet. Therefore, we studied the seasonal dynamics of the particulate and dissolved CYN concentrations in relation to the cyanobacterial occurrence and environmental factors in two German lakes over two years. Total CYN reached maximum concentrations of 0.34 and 1.80 µg L-1 in Melangsee and Langer See, respectively. In both lakes, the dissolved CYN fraction peaked after the particulate fraction, and reached higher values indicating that CYN is poorly decomposed and accumulates in the water. The cyanobacterial community was very diverse in both lakes, including potentially CYN producing species such as Cylindrospermopsis raciborskii, Anabaena bergii and Aphanizomenon flos-aquae. However, these species could be excluded as the major CYN producers. The stronges significant correlation was found for Aphanizomenon gracile and CYN, strongly indicating that the species is the main CYN producer in Langer See. CYN was also correlated with Planktothrix agardhii in Langer See and Pseudanabaena limnetica in Melangsee, but species of the order scillatoriales are not known to produce CYN. In Melangsee the CYN producer could not be identified. Different correlations of CYN with abiotic factors in the two lakes indicate the presences of further undetected CYN producers as well as different regulation mechanisms of their dynamic and the variability of CYN.

To evaluate the potential hazard of a harmful substance on its pathway from a source to a sensitive site, it is important to know if degradation or reversible sorption is the dominant process. While, in case of degradation, mass is removed from the system, in the case of reversible sorption the transport is only retarded. A mathematical analytical concept is outlined, which can be applied to evaluate data from field experiments, from technical and semitechnical facilities and from the laboratory. The concept is exemplified on a series of enclosure experiments performed with phages within a project investigating processes during bank filtration. Results show that parameters are not constant in the experiments and indicate a significant influence of redox conditions on both retardation and deactivation rates. On the other hand, an influence of the clogging layer could not be detected.