Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
about
Combined sewer overflows: an environmental source of hormones and wastewater micropollutantsGenetic characterization of caffeine degradation by bacteria and its potential applicationsLinking field-based metabolomics and chemical analyses to prioritize contaminants of emerging concern in the Great Lakes basin.Comparison of Microbial and Chemical Source Tracking Markers To Identify Fecal Contamination Sources in the Humber River (Toronto, Ontario, Canada) and Associated Storm Water Outfalls.Occurrence and potential risk of triclosan in freshwaters of São Paulo, Brazil--the need for regulatory actions.Correlation of six anthropogenic markers in wastewater, surface water, bank filtrate, and soil aquifer treatment.Wastewater micropollutants as tracers of sewage contamination: analysis of combined sewer overflow and stream sediments.Draft Genome Sequence of a Caffeine-Utilizing Bacterium, Cupriavidus sp. Strain D384Molecular and microscopic assessment of the effects of caffeine, acetaminophen, diclofenac, and their mixtures on river biofilm communities.Use of Taguchi methodology to enhance the yield of caffeine removal with growing cultures of Pseudomonas pseudoalcaligenesUsing Caffeine as a Water Quality Indicator in the Ambient Monitoring Program for Third Fork Creek Watershed, Durham, North Carolina.Potential ecological and human health risks associated with the presence of pharmaceutically active compounds in the aquatic environment.Normalized diurnal and between-day trends in illicit and legal drug loads that account for changes in population.Investigating the removal of some pharmaceutical compounds in hospital wastewater treatment plants operating in Saudi Arabia.Oxidation of nitrogen-containing pollutants by novel ferrate(VI) technology: a review.Environmentally oriented models and methods for the evaluation of drug × drug interaction effects.Water quality comparison of secondary effluent and reclaimed water to ambient river water of southern Okinawa Island via biological evaluation.The degradation behaviour of nine diverse contaminants in urban surface water and wastewater prior to water treatment.Ecotoxicological risk assessment and seasonal variation of some pharmaceuticals and personal care products in the sewage treatment plant and surface water bodies (lakes).Occurrence and daily variability of pharmaceuticals and personal care products in swimming pools.Caffeine in surface and wastewaters in Barbados, West Indies.A 3-year study on occurrence of emerging contaminants in an urban stream of São Paulo State of Southeast Brazil.Anthropic pollution in aquatic environment: development of a caffeine indicator.Caffeine as an environmental indicator for assessing urban aquatic ecosystems.Correlations between in situ sensor measurements and trace organic pollutants in urban streams.Monitoring of trace metals and pharmaceuticals as anthropogenic and socio-economic indicators of urban and industrial impact on surface waters.Occurrence and fate of PPCPs and correlations with water quality parameters in urban riverine waters of the Pearl River Delta, South China.Occurrence and suitability of pharmaceuticals and personal care products as molecular markers for raw wastewater contamination in surface water and groundwater.Degradation of exogenous caffeine by Populus alba and its effects on endogenous caffeine metabolism.Identifying sources of emerging organic contaminants in a mixed use watershed using principal components analysis.Source-specific sewage pollution detection in urban river waters using pharmaceuticals and personal care products as molecular indicators.Urban biowaste-derived sensitizing materials for caffeine photodegradation.Concentrations of select dissolved trace elements and anthropogenic organic compounds in the Mississippi River and major tributaries during the summer of 2012 and 2013.Presence of microbial and chemical source tracking markers in roof-harvested rainwater and catchment systems for the detection of fecal contamination.Draft Genome Sequence of the Bacterium Pseudomonas putida CBB5, Which Can Utilize Caffeine as a Sole Carbon and Nitrogen Source.Stability and removal of atorvastatin, rosuvastatin and simvastatin from wastewater.Removal of caffeine from pharmaceutical wastewater by adsorption: influence of NOM, textural and chemical properties of the adsorbent.Pharmaceuticals in on-site sewage effluent and ground water, Western Montana.The use of multiple tracers for tracking wastewater discharges in freshwater systems.Contamination levels of human pharmaceutical compounds in French surface and drinking water.
P2860
Q24621143-7691A3F8-839C-4D6E-BA55-62F3B8DC2249Q26852833-F30950D5-EE3D-48B0-9543-DCD7282D4EEDQ31065039-667209DD-A2EB-43B0-859D-001605774C9AQ31122596-1E1D497B-4809-47C3-BFC4-EB3A07EE6059Q31128144-CFC172D7-8DCB-4100-B087-58F8BEF39D50Q33453404-838E06B9-ABF0-4462-A517-764262D46B41Q33462810-C6093B2E-CC7E-4874-B286-C10A0A1BCB98Q33815121-8E34B1C0-FA4E-4DCA-AC9E-9EFFCB0530BDQ34105049-4D6A9623-B38C-41A4-AD5E-62DFC478298BQ35543672-52FB9CCC-923A-4D2B-96E0-F54FE99B7F9DQ35786967-B2CA6A31-A8BC-44AA-A971-01211A28D095Q35870888-349D5162-7BF0-4CCF-9A3D-05D560471E22Q36290813-8D7655C1-80D8-46F2-B219-61B9AB6BA309Q37018650-20D406BA-EC13-4B0C-BA5C-453BA980DDB2Q37730710-AF630133-A1F5-4037-8577-146FFDF5F3EEQ38307252-3424125A-0F6F-4752-9C11-5065C6177632Q38369043-86653FF0-82F1-4C72-995F-8102817F6AF8Q38385248-852DBE19-86E9-4385-B9DA-B01AB90C7235Q38629380-687A4212-1B06-4A10-89F3-80613A6D47D6Q38927947-C2FBC80D-C51E-4808-9FD1-2DB947038BEBQ38982602-B1D73196-BF5E-4D40-9745-7D020606010EQ39074613-634B86CB-04C2-4CB4-986F-2B6D51AC993DQ39730717-06A7A11E-9F02-4FF2-84DF-3D44F7D8C171Q39742056-B79F7E65-47FC-4137-AC31-E5F42B61F856Q39915384-41BDB6A8-3766-4AC6-9E29-12A6962D32C6Q40060801-4F26D6C4-2257-4AD4-81A5-5623BD88C8F7Q40106782-43DB9875-0AA3-41B9-BF94-059D602521AEQ40158952-49443C22-28C0-4446-A0C6-B0BA185C2D7EQ40197663-5ED1C430-9779-4855-BB45-EE2739CFB0BAQ40215960-43AB9971-73DB-46BC-BCB4-5232FFE23727Q40399663-6696B11F-ABE5-44E8-BE3E-7AA2724425BCQ40409881-10252568-4029-4491-BD84-612D2F744554Q40437675-38A8978A-2A9C-41E8-96CC-6C2A9B4111DFQ40743963-10E45FD5-84B5-4E9E-B7EA-02A3770B4D15Q42531709-FD23462B-8CA9-4437-9F30-ED9100FC8414Q43334190-65702E98-B689-4785-80C6-3A26740764F2Q43341594-D0975EB3-78A9-4187-A10F-6B1DC5C41943Q43347157-86F71CDE-813E-4D19-B42A-2F6305659DB4Q43359341-E3CB0691-0084-433D-AB36-A290678F0553Q44973228-591EE345-FDB8-4EFC-830C-A75E3852C9E7
P2860
Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
@en
Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
@nl
type
label
Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
@en
Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
@nl
prefLabel
Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
@en
Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
@nl
P2093
P356
P1476
Caffeine, an anthropogenic marker for wastewater comtamination of surface waters.
@en
P2093
Hans-Rudolf Buser
Ignaz I Buerge
Markus D Müller
Thomas Poiger
P304
P356
10.1021/ES020125Z
P407
P577
2003-02-01T00:00:00Z