about
enviPath--The environmental contaminant biotransformation pathway resourceBiotransformation of Two Pharmaceuticals by the Ammonia-Oxidizing Archaeon Nitrososphaera gargensisDeriving persistence indicators from regulatory water-sediment studies – opportunities and limitations in OECD 308 data.Data-driven extraction of relative reasoning rules to limit combinatorial explosion in biodegradation pathway prediction.Eawag-Soil in enviPath: a new resource for exploring regulatory pesticide soil biodegradation pathways and half-life data.Assessing exposure to transformation products of soil-applied organic contaminants in surface water: comparison of model predictions and field data.Evaluating pesticide degradation in the environment: blind spots and emerging opportunities.The functional and taxonomic richness of wastewater treatment plant microbial communities are associated with each other and with ambient nitrogen and carbon availability.Association of biodiversity with the rates of micropollutant biotransformations among full-scale wastewater treatment plant communities.When synthetic chemicals degrade in the environment.Bridging across OECD 308 and 309 Data in Search of a Robust Biotransformation Indicator.The challenge of micropollutants in aquatic systems.The University of Minnesota pathway prediction system: predicting metabolic logicEnvironmental persistence of organic pollutants: guidance for development and review of POP risk profiles.Recent advances in environmental risk assessment of transformation products.A computer-based prediction platform for the reaction of ozone with organic compounds in aqueous solution: kinetics and mechanisms.Simulation Studies to Explore Biodegradation in Water-Sediment Systems: From OECD 308 to OECD 309.Rapid Screening for Exposure to "Non-Target" Pharmaceuticals from Wastewater Effluents by Combining HRMS-Based Suspect Screening and Exposure Modeling.Indicators for the exposure assessment of transformation products of organic micropollutants.Predicting methyl tert-butyl ether, tert-butyl formate, and tert-butyl alcohol levels in the environment using the fugacity approach.The activity level of a microbial community function can be predicted from its metatranscriptomeQSAR-analysis and mixture toxicity as diagnostic tools: Influence of degradation on the toxicity and mode of action of diuron in algae and daphnids.A tiered procedure for assessing the formation of biotransformation products of pharmaceuticals and biocides during activated sludge treatment.High-throughput identification of microbial transformation products of organic micropollutants.Structure-based interpretation of biotransformation pathways of amide-containing compounds in sludge-seeded bioreactors.Fate of beta-blocker human pharmaceuticals in surface water: comparison of measured and simulated concentrations in the Glatt Valley Watershed, Switzerland.Environmental risk assessment of human pharmaceuticals in the European Union: A case study with the β-blocker atenolol.Identification of transformation products of organic contaminants in natural waters by computer-aided prediction and high-resolution mass spectrometry.Physiological modes of action of fluoxetine and its human metabolites in algae.Micropollutant biotransformation kinetics associate with WWTP process parameters and microbial community characteristics.Simulation of pharmaceutical and personal care product transport to tile drains after biosolids application.Joint persistence of transformation products in chemicals assessment: case studies and uncertainty analysis.Response to comment of Sierra Rayne on "Targeting aquatic microcontaminants for monitoring: exposure categorization and application to the Swiss situation [Götz et al., Environ Sci Pollut Res (2010) 17:341-354]".Pesticide nonextractable residue formation in soil: insights from inverse modeling of degradation time series.Environmental risk assessment of ivermectin: A case study.Predicting biodegradation products and pathways: a hybrid knowledge- and machine learning-based approach.Ion Trapping of Amines in Protozoa: A Novel Removal Mechanism for Micropollutants in Activated Sludge.pH-Dependent sorption of acidic organic chemicals to soil organic matter.Simulating sulfadimidine transport in surface runoff and soil at the microplot and field scale.Experimental determination of LSER parameters for a set of 76 diverse pesticides and pharmaceuticals.
P50
Q28603048-3F635765-6976-4B96-AC14-686C776DA19EQ28830523-59668009-395F-4B6C-828D-5745D7FFC3FFQ30948527-2410A9B5-628E-4044-B677-CB038EDE8CA4Q31163861-FD703E98-6C96-42F2-9FE8-F07103FCBBB8Q31165023-2FAF1D36-B54C-457C-A1C7-DC6387E47836Q33836229-62FA6833-E253-4AA5-9071-792127644F75Q34364442-1D4E002A-91B5-4B04-94EB-A058D757AB20Q35098011-3E3847D8-3447-4448-A72F-E42A1B0EC61CQ35422442-B7E3E0A5-0247-4E81-A383-93290E208294Q35928163-89543D85-8E8A-4E90-B48E-28403830B1E7Q36026341-EECCF623-E231-499D-AECC-BACBC9DF88BEQ36576673-6132BC63-8F0B-42E1-BC37-5B3BE5184EAAQ36749366-710CD536-CB86-4FF3-8EDB-A5E95D963C1BQ37529787-0C3004D1-9B40-4193-B43E-3D6B6D4FEEF0Q37862728-5272E268-A47B-4C04-9195-440E64580558Q38758313-007B8CB8-7EF6-4261-BD6E-F22B2BA57EF9Q39660086-A8123F71-2D8B-4E45-857A-297F7FDC3D98Q39951288-534F8ECB-F1CC-41C5-B7AA-B6B6F79CE922Q40222685-DA5A957B-5C87-4E25-A283-A749A23F7486Q40417958-50701022-6B07-4555-9862-A8D09A6D1C93Q42084354-E72AD707-6B76-4AA5-8B5E-19802DA8DD87Q42644520-DF5356CA-05DB-4234-BAD8-9B947054BB9BQ42850487-26F41A58-6380-4EDF-9EC3-D3B2D7329C1CQ42924144-9E3461BB-ECC7-4922-9B50-B92C0D7978A1Q42944308-82F13D21-3E33-460E-A537-8761B841F5FFQ43248544-8ABF0CF1-CD94-4F1E-96A0-7D4F5A458D19Q43249370-AFB5F030-E79E-4AF6-A45C-5180774D1013Q43266563-83263D0C-3707-44EE-8AF5-031618DBA450Q43274751-B15475BA-57A6-45EB-A8AA-789975AA20E2Q43348708-FE1373CA-DB69-41F6-806C-D2DA4F6FC1A7Q43368947-4782875E-1AEC-4015-B199-295446EAB93FQ44360979-F552E929-C1B6-4A30-85C3-47494A172B1DQ44567062-C1BF7402-EA8E-44A8-A680-5057F061C15AQ44819211-B09AE69B-69C7-45FE-AF1F-33064C653C9EQ45356246-099B7D5B-FB86-442A-969C-DAB7C90BD655Q45963140-D46EAD37-CD50-4812-AE31-DC312C789200Q46252737-2D37BB89-6935-4071-B915-DC7CCB8B42DBQ46504000-92A40285-D5E5-42C0-91F6-59DF15BA4908Q46614331-A2714324-F128-4A7E-93B5-2485FA12390EQ46646808-367B4E00-75A3-4753-84AE-FBED9021943E
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Kathrin Fenner
@ast
Kathrin Fenner
@en
Kathrin Fenner
@es
Kathrin Fenner
@nl
type
label
Kathrin Fenner
@ast
Kathrin Fenner
@en
Kathrin Fenner
@es
Kathrin Fenner
@nl
prefLabel
Kathrin Fenner
@ast
Kathrin Fenner
@en
Kathrin Fenner
@es
Kathrin Fenner
@nl
P106
P21
P31
P496
0000-0001-6068-8220