Your search keyword '"Stadler, Philipp"' showing total 4 results

1. Spatial patterns of enzymatic activity in large water bodies: Ship-borne measurements of beta-D-glucuronidase activity as a rapid indicator of microbial water quality.

Author

Stadler P, Loken LC, Crawford JT, Schramm PJ, Sorsa K, Kuhn C, Savio D, Striegl RG, Butman D, Stanley EH, Farnleitner AH, and Zessner M

Subjects

Environmental Monitoring instrumentation, United States, Environmental Monitoring methods, Glucuronidase analysis, Lakes microbiology, Rivers microbiology, Water Quality

Abstract

This study used automated enzymatic activity measurements conducted from a mobile research vessel to detect the spatial variability of beta‑d‑glucuronidase (GLUC) activity in large freshwater bodies. The ship-borne observations provided the first high-resolution spatial data of GLUC activity in large water bodies as rapid indication of fecal pollution and were used to identify associations with hydrological conditions and land use. The utility of this novel approach for water quality screening was evaluated by surveys of the Columbia River, the Mississippi River and the Yahara Lakes, covering up to a 500 km river course and 50 km 2 lake area. The ship-borne measurements of GLUC activity correlated with standard E. coli analyses (R 2  = 0.71) and revealed the effects of (1) precipitation events and urban run-off on GLUC activity in surface waters, (2) localized point inlets of potential fecal pollution and (3) increasing GLUC signals along gradients of urbanization. We propose that this ship-borne water quality screening to be integrated into future water inventory programs as an initial or complementary tool (besides established fecal indicator parameters), due to its ability to provide near real-time spatial information on potential fecal contamination of large surface water resources and therefore being helpful to greatly reduce potential human health risks., (Copyright © 2018 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2019

2. Real-time monitoring of beta-d-glucuronidase activity in sediment laden streams: A comparison of prototypes.

Author

Stadler P, Blöschl G, Vogl W, Koschelnik J, Epp M, Lackner M, Oismüller M, Kumpan M, Nemeth L, Strauss P, Sommer R, Ryzinska-Paier G, Farnleitner AH, and Zessner M

Subjects

Animals, Environmental Monitoring instrumentation, Escherichia coli, Feces microbiology, Swine, Water Microbiology, Glucuronidase, Rivers

Abstract

Detection of enzymatic activities has been proposed as a rapid surrogate for the culture-based microbiological pollution monitoring of water resources. This paper presents the results of tests on four fully automated prototype instruments for the on-site monitoring of beta-d-glucuronidase (GLUC) activity. The tests were performed on sediment-laden stream water in the Hydrological Open Air Laboratory (HOAL) during the period of March 2014 to March 2015. The dominant source of faecal pollution in the stream was swine manure applied to the fields within the catchment. The experiments indicated that instrument pairs with the same construction design yielded highly consistent results (R(2) = 0.96 and R(2) = 0.94), whereas the results between different designs were less consistent (R(2) = 0.71). Correlations between the GLUC activity measured on-site and culture-based Escherichia coli analyses over the entire study period yielded R(2) = 0.52 and R(2) = 0.47 for the two designs, respectively. The correlations tended to be higher at the event scale. The GLUC activity was less correlated with suspended sediment concentrations than with E. coli, which is interpreted in terms of indicator applicability and the time since manure application. The study shows that this rapid assay can yield consistent results over a long period of on-site operation in technically challenging habitats. Although the use of GLUC activity as a proxy for culture-based assays could not be proven for the observed habitat, the study results suggest that this biochemical indicator has high potential for implementation in early warning systems., (Copyright © 2016 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2016

3. Bacterial diversity along a 2600 km river continuum.

Author

Savio D, Sinclair L, Ijaz UZ, Parajka J, Reischer GH, Stadler P, Blaschke AP, Blöschl G, Mach RL, Kirschner AK, Farnleitner AH, and Eiler A

Subjects

Bacteria isolation & purification, Biodiversity, Europe, RNA, Ribosomal, 16S genetics, Bacteria classification, Bacteria genetics, Plankton microbiology, Rivers microbiology

Abstract

The bacterioplankton diversity in large rivers has thus far been under-sampled despite the importance of streams and rivers as components of continental landscapes. Here, we present a comprehensive dataset detailing the bacterioplankton diversity along the midstream of the Danube River and its tributaries. Using 16S rRNA-gene amplicon sequencing, our analysis revealed that bacterial richness and evenness gradually declined downriver in both the free-living and particle-associated bacterial communities. These shifts were also supported by beta diversity analysis, where the effects of tributaries were negligible in regards to the overall variation. In addition, the river was largely dominated by bacteria that are commonly observed in freshwaters. Dominated by the acI lineage, the freshwater SAR11 (LD12) and the Polynucleobacter group, typical freshwater taxa increased in proportion downriver and were accompanied by a decrease in soil and groundwater-affiliated bacteria. Based on views of the meta-community and River Continuum Concept, we interpret the observed taxonomic patterns and accompanying changes in alpha and beta diversity with the intention of laying the foundation for a unified concept for river bacterioplankton diversity., (© 2015 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2015

4. Event-transport of beta-d-glucuronidase in an agricultural headwater stream: Assessment of seasonal patterns by on-line enzymatic activity measurements and environmental isotopes

Author

Monika Kumpan, Günter Blöschl, Philipp Stadler, Lukas Nemeth, Jörg Krampe, Markus Oismüller, Andreas H. Farnleitner, Matthias Zessner, Stadler, Philipp, Blöschl, Günter, Nemeth, Lukas, Oismüller, Markus, Kumpan, Monika, Krampe, Jörg, Farnleitner, Andreas H, and Zessner, Matthias

Subjects

Environmental Engineering, 010504 meteorology & atmospheric sciences, water quality monitoring, enzymatic activity, Drainage basin, stable isotopes, 010501 environmental sciences, Online Systems, 01 natural sciences, Feces, Hydrology (agriculture), Bacterial Proteins, Isotopes, Rivers, Water Quality, Streamflow, Escherichia coli, Environmental Chemistry, contaminant event transport, Waste Management and Disposal, Glucuronidase, 0105 earth and related environmental sciences, Hydrology, geography, geography.geographical_feature_category, Escherichia coli Proteins, surface water, Sediment, Pollution, Austria, Snowmelt, fecal pollution, Environmental science, Environmental isotopes, Seasons, Water quality, Water Microbiology, Surface water, Environmental Monitoring

Abstract

Understanding the fate of fecal pollution in the landscape is required for microbial risk analysis. The aim of this study was to assess the patterns and dynamics of beta-D-glucuronidase (GLUC), which has been suggested as a surrogate for fecal pollution monitoring, in a stream draining an agricultural headwater catchment. Automated enzymatic on-site measurements of stream water and sediments were made over two years (2014-2016) to quantify the sources and pathways of GLUC in a stream. The event water fraction of streamflow was estimated by stable isotopes. Samples from field sediments on a hillslope, streambed sediment and stream water were analyzed for GLUC and with a standard E. coli assay. The results showed ten times higher GLUC and E. coli concentrations during the summer than during the winter for all compartments (field and streambed sediments and stream water). The E. coli concentrations in the streambed sediment were approximately 100 times those of the field sediments. Of the total GLUC load in the study period, 39% were transported during hydrological events (increased streamflow due to rainfall or snowmelt); of these, 44% were transported when the stream contained no recent rainwater. The results suggested that a large proportion of the GLUC and E. coli in the stream water stemmed from resuspended streambed sediments. Moreover, the results strongly indicated the existence of remnant populations of GLUC-active organisms in the catchment. usc Refereed/Peer-reviewed

Published

2019