| Q41539878 | A Complementary Isothermal Amplification Method to the U.S. EPA Quantitative Polymerase Chain Reaction Approach for the Detection of Enterococci in Environmental Waters. |
| Q46354657 | A loop-mediated isothermal amplification (LAMP) assay for the rapid detection of Enterococcus spp. in water |
| Q38735892 | Acid phosphatase test proves superior to standard phenotypic identification procedure for Clostridium perfringens strains isolated from water |
| Q39253915 | Characterization of sources and loadings of fecal pollutants using microbial source tracking assays in urban and rural areas of the Grand River Watershed, Southwestern Ontario |
| Q101127820 | Combining multi-isotopic and molecular source tracking methods to identify nitrate pollution sources in surface and groundwater |
| Q61445183 | Detection of a microbial source tracking marker by isothermal helicase-dependent amplification and a nucleic acid lateral-flow strip test |
| Q92875788 | Does Soil Contribute to the Human Gut Microbiome? |
| Q98299547 | Elucidating fecal pollution patterns in alluvial water resources by linking standard fecal indicator bacteria to river connectivity and genetic microbial source tracking |
| Q35159792 | Escherichia coli and enterococci are sensitive and reliable indicators for human, livestock and wildlife faecal pollution in alpine mountainous water resources. |
| Q48846462 | Evaluation of two spike-and-recovery controls for assessment of extraction efficiency in microbial source tracking studies |
| Q26852209 | Human impact on the microbiological water quality of the rivers |
| Q40333611 | Human-, Ovine-, and Bovine-Specific Viral Source Tracking Tools to Discriminate Between the Major Fecal Sources in Agricultural Waters. |
| Q34887025 | Hypothesis-driven approach for the identification of fecal pollution sources in water resources |
| Q45896827 | Identification of the origin of faecal contamination in estuarine oysters using Bacteroidales and F-specific RNA bacteriophage markers. |
| Q92177234 | Improving the identification of the source of faecal pollution in water using a modelling approach: From multi-source to aged and diluted samples |
| Q33665505 | Influence of hydrological conditions on the Escherichia coli population structure in the water of a creek on a rural watershed |
| Q34686273 | Mass effects meet species sorting: transformations of microbial assemblages in epiphreatic subsurface karst water pools |
| Q28397946 | Microbial Source Tracking in Adjacent Karst Springs |
| Q40127008 | Microbial water quality in freshwater lakes with different land use. |
| Q38625648 | Multiparametric monitoring of microbial faecal pollution reveals the dominance of human contamination along the whole Danube River |
| Q28829910 | Occurrence of human-associated Bacteroidetes genetic source tracking markers in raw and treated wastewater of municipal and domestic origin and comparison to standard and alternative indicators of faecal pollution |
| Q55030850 | Opening the black box of spring water microbiology from alpine karst aquifers to support proactive drinking water resource management. |
| Q37080564 | Performance characteristics of qPCR assays targeting human- and ruminant-associated bacteroidetes for microbial source tracking across sixteen countries on six continents. |
| Q39836288 | Persistence of Bacteroides species populations in a river as measured by molecular and culture techniques |
| Q40201946 | Persistence of fecal indicator bacteria in sediment of an oligotrophic river: comparing large and lab-scale flume systems. |
| Q34108899 | Presence of Bacteroidales as a predictor of pathogens in surface waters of the central California coast |
| Q40624949 | QMRAcatch: Human-Associated Fecal Pollution and Infection Risk Modeling for a River/Floodplain Environment |
| Q36945407 | QMRAcatch: Microbial Quality Simulation of Water Resources including Infection Risk Assessment |
| Q52602692 | Quantification of pathogenic Leptospira in the soils of a Brazilian urban slum. |
| Q37548992 | Recent advances in the microbial safety of fresh fruits and vegetables |
| Q36155840 | Relevance of Bacteroidales and F-specific RNA bacteriophages for efficient fecal contamination tracking at the level of a catchment in France |
| Q43328950 | Semi-quantitative evaluation of fecal contamination potential by human and ruminant sources using multiple lines of evidence |
| Q90390095 | Simple lysis of bacterial cells for DNA-based diagnostics using hydrophilic ionic liquids |
| Q39283958 | Sorbitol-fermenting Bifidobacteria are indicators of very recent human faecal pollution in streams and groundwater habitats in urban tropical lowlands |
| Q64270965 | Spring Water of an Alpine Karst Aquifer Is Dominated by a Taxonomically Stable but Discharge-Responsive Bacterial Community |
| Q33787006 | State of the art molecular markers for fecal pollution source tracking in water |
| Q43761582 | The Austrian pediatrician Theodor Escherich as bacteriologist and social hygienist: The 100th anniversary of his death on February 15th, 1911 |
| Q84974700 | The Vienna School of Water Hygiene from the End of World War II until now |
| Q41822935 | The spectral absorption coefficient at 254 nm as a real-time early warning proxy for detecting faecal pollution events at alpine karst water resources |
| Q48573578 | Tracking the relative concentration between Bacteroidales DNA markers and culturable Escherichia coli in fecally polluted subtropical seawater: potential use in differentiating fresh and aged pollution |