Removal of antibiotics in wastewater: Effect of hydraulic and solid retention times on the fate of tetracycline in the activated sludge process.
about
Membrane bioprocesses for pharmaceutical micropollutant removal from watersQuantitative gene monitoring of microbial tetracycline resistance using magnetic luminescent nanoparticlesBiogas generation in anaerobic wastewater treatment under tetracycline antibiotic pressureDefining established and emerging microbial risks in the aquatic environment: current knowledge, implications, and outlooksResponse of activated sludge to the treatment of oxytetracycline production waste stream.Metagenomic profiling of antibiotic resistance genes and mobile genetic elements in a tannery wastewater treatment plant.Removal performance and changes in the microbial communities of SBRs under aerobic and anoxic conditions with trace tetracycline pressure.Preparation of La-modified magnetic composite for enhanced adsorptive removal of tetracycline.Removal mechanisms and kinetics of trace tetracycline by two types of activated sludge treating freshwater sewage and saline sewagePotential ecological and human health impacts of antibiotics and antibiotic-resistant bacteria from wastewater treatment plants.Distribution, fate, and risk assessment of antibiotics in five wastewater treatment plants in Shanghai, China.Antibiotic-resistant genes and antibiotic-resistant bacteria in the effluent of urban residential areas, hospitals, and a municipal wastewater treatment plant system.Occurrence, seasonal variation and removal efficiency of antibiotics and their metabolites in wastewater treatment plants, Jiulongjiang River Basin, South China.Effective Degradation of Aqueous Tetracycline Using a Nano-TiO₂/Carbon Electrocatalytic Membrane.Use and environmental occurrence of antibiotics in freestall dairy farms with manured forage fields.Development of adsorptive membranes by confinement of activated biochar into electrospun nanofibers.Aqueous photocatalytic oxidation of sulfamethizole.Adsorption of tetracycline on La-impregnated MCM-41 materials.Removal of tetracycline and oxytetracycline by microscale zerovalent iron and formation of transformation products.Determination of micropollutants in combined sewer overflows and their removal in a wastewater treatment plant (Seoul, South Korea).Removal of a mixture tetracycline-tylosin from water based on anodic oxidation on a glassy carbon electrode coupled to activated sludge.Removal of tetracyclines from swine manure at full-scale activated sludge treatment plants.Occurrence and dissipation of veterinary antibiotics in two typical swine wastewater treatment systems in east China.Optimization of an A(2)/O process for tetracycline removal via response surface methodology coupled with a Box-Behnken design.Respirometric assessment of substrate binding by antibiotics in peptone biodegradation.The occurrence and fate of tetracyclines in two pharmaceutical wastewater treatment plants of Northern China.Occurrence and removal of antibiotics and the corresponding resistance genes in wastewater treatment plants: effluents' influence to downstream water environment.Abundance of six tetracycline resistance genes in wastewater lagoons at cattle feedlots with different antibiotic use strategies.Aqueous photocatalytic degradation of selected micropollutants by Pd-modified titanium dioxide in three photoreactor types.Occurrence, removal, and risk assessment of antibiotics in 12 wastewater treatment plants from Dalian, China.Development and validation of a rapid method for the determination of tetracycline in activated sludge by SPE clean-up and HPLC-UV detection.Sorption and biodegradation of selected antibiotics in biosolids.Elucidating the impact of microbial community biodiversity on pharmaceutical biotransformation during wastewater treatment.Removal of sulfadiazine and tetracycline in membrane bioreactors: linking pathway to microbial community shift.Biodegradation of tetracycline by the yeast strain Trichosporon mycotoxinivorans XPY-10.Elimination of persistent emerging micropollutants in a suspended-bed photocatalytic reactor: influence of operating conditions and combination with aerobic biological treatment.Total concentrations of heavy metals and occurrence of antibiotics in sewage sludges from cities throughout ChinaPlasmonic resonance excited dual Z-scheme BiVO4/Ag/Cu2O nanocomposite: synthesis and mechanism for enhanced photocatalytic performance in recalcitrant antibiotic degradationPharmaceuticals and Personal-Care ProductsSonocatalytic Degradation of Antibiotics Tetracycline by Mn-Modified Diatomite
P2860
Q27000817-8D522327-FC6E-470E-890D-E614A2279C8FQ28280790-62C64AD0-CDBE-4627-BEBC-36075B3B7E0BQ28597325-3002B936-0F26-40A5-93A8-3753D245BD91Q30479040-031DADE4-F2E3-4E03-91F6-B056AAF67C1BQ34493504-DB6B2D6C-4B15-4629-ACED-98FAEAADAF5AQ35009233-2121D734-5F87-4587-A70A-42A04962233DQ35157509-029B2352-1FCD-44D3-9D60-A80D3B531322Q36393666-E9B7303B-0D69-4223-BF53-E3AA296AEDC6Q36788616-16DC78EF-E2FA-40D9-9ED0-13641561EBA1Q37020172-C53AFC7E-1032-4403-BE55-37B7BB0F86B4Q39711220-085CE5DB-0719-4B3B-9DA3-FF070201F7D4Q40229698-D8773803-3728-4F73-B6F1-4B231A6375FEQ40243535-295BFCCA-A747-490B-B339-AA4C6EF4668BQ40967782-51791314-F89A-451C-A5D5-F284902739FFQ42036925-40C30E29-3250-4A7D-AF28-B8E465B8A41CQ42153871-336AD3D2-E832-4A01-B8B9-0B87F7161DA3Q42754052-8828D39B-D7A5-4E01-B653-794CEC0CB2AAQ43082616-C40F89A9-3A89-4316-ADCC-47A3A328ADC9Q43309379-A64E67F7-25D2-4131-8B19-A229E2CBF9F7Q43311404-66E47415-388E-41B6-AF8E-1AF0D65B3671Q43329082-339D049B-BD48-44BE-9331-65471E7189B4Q43329359-D1847568-1221-4F17-9D95-D68F745236C2Q43330318-0A9F18D5-4264-4F7D-B221-8541625EA265Q43332373-74DC037C-882A-4127-B60A-C647D5697B7BQ43335554-AE4F1D0D-758A-4EA5-AEB7-AAF570448484Q43338858-AA887C0A-8AE3-41D0-A480-312E23F73FE0Q43342384-169EE87B-1147-4D0A-A02F-700698C8D963Q43343173-7B2DB83A-DD9D-49C5-8CEB-4702B179312BQ43352812-534F8174-451B-4815-B056-160234A93B19Q43362955-1193BD8C-C215-40FF-A070-2D4D8B413DD3Q45977128-0B7BE57A-E62A-4EB9-BC91-B196DAB3ABC0Q46110154-9D484C18-DCFA-4323-A952-718872A8C0DDQ46273444-D692DA8A-1A58-4E03-9836-591A864B2F80Q46305749-EAEE3828-C521-4C92-9460-F718444178C8Q47977258-D7E0442E-D586-4FF1-B53A-3FEA4E4C494AQ51103459-4DABA96C-4322-4A8D-9F61-EE40B0D2CC85Q57256796-5C16B362-CDA1-4A6F-8D9B-BD36162BA89BQ57264982-FFF304EA-DF5D-4D4A-855D-F465770E54ACQ57595233-3EBD198A-DEBF-4D09-928A-D1F0486A4D08Q59145783-4EBFDC7A-B323-427C-AACC-822BD0F39397
P2860
Removal of antibiotics in wastewater: Effect of hydraulic and solid retention times on the fate of tetracycline in the activated sludge process.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Removal of antibiotics in wast ...... the activated sludge process.
@en
Removal of antibiotics in wast ...... the activated sludge process.
@nl
type
label
Removal of antibiotics in wast ...... the activated sludge process.
@en
Removal of antibiotics in wast ...... the activated sludge process.
@nl
prefLabel
Removal of antibiotics in wast ...... the activated sludge process.
@en
Removal of antibiotics in wast ...... the activated sludge process.
@nl
P2093
P356
P1476
Removal of antibiotics in wast ...... n the activated sludge process
@en
P2093
A Scott Weber
Diana S Aga
James N Jensen
Peter Eichhorn
P304
P356
10.1021/ES050006U
P407
P50
P577
2005-08-01T00:00:00Z