FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2080761353> ?p ?o ?g. }

• W2080761353 endingPage "630" @default.
• W2080761353 startingPage "618" @default.
• W2080761353 abstract "The occurrence, removal and ecotoxicological assessment of 21 pharmaceutically active compounds (PhACs) including antibiotics, analgesics, antiepileptics, antilipidemics and antihypersensitives, were studied at four municipal wastewater treatment plants (WWTP) in Chongqing, the Three Gorges Reservoir Area. Individual treatment unit effluents, as well as primary and secondary sludge, were sampled and analyzed for the selected PhACs to evaluate their biodegradation, persistence and partitioning behaviors. PhACs were identified and quantified using high performance liquid chromatography/tandem mass spectrometry after solid-phase extraction. All the 21 analyzed PhACs were detected in wastewater and the target PhACs except acetaminophen, ibuprofen and gemfibrozil, were also found in sludge. The concentrations of the antibiotics and SVT were comparable to or even higher than those reported in developed countries, while the case of other target PhACs was opposite. The elimination of PhACs except acetaminophen was incomplete and a wide range of elimination efficiencies during the treatment were observed, i.e. from “negative removal” to 99.5%. The removal of PhACs was insignificant in primary and disinfection processes, and was mainly achieved during the biological treatment. Based on the mass balance analysis, biodegradation is believed to be the primary removal mechanism, whereas only about 1.5% of the total mass load of the target PhACs was removed by sorption. Experimentally estimated distribution coefficients (< 500 L/kg, with a few exceptions) also indicate that biodegradation/transformation was responsible for the removal of the target PhACs. Ecotoxicological assessment indicated that the environment concentrations of single compounds (including sulfadiazine, sulfamethoxazole, ofloxacin, azithromycin and erythromycin-H2O) in effluent and sludge, as well as the mixture of the 21 detected PhACs in effluent, sludge and receiving water had a significant ecotoxicological risk to algae. Therefore, further control of PhACs in effluent and sludge is required before their discharge and application to prevent their introduction into the environment." @default.
• W2080761353 created "2016-06-24" @default.
• W2080761353 creator A5016815186 @default.
• W2080761353 creator A5017612885 @default.
• W2080761353 creator A5021334632 @default.
• W2080761353 creator A5027659527 @default.
• W2080761353 creator A5051660926 @default.
• W2080761353 creator A5052029815 @default.
• W2080761353 creator A5088508722 @default.
• W2080761353 creator A5089565504 @default.
• W2080761353 date "2014-02-01" @default.
• W2080761353 modified "2023-10-14" @default.
• W2080761353 title "Occurrence, fate and ecotoxicological assessment of pharmaceutically active compounds in wastewater and sludge from wastewater treatment plants in Chongqing, the Three Gorges Reservoir Area" @default.
• W2080761353 cites W1964071916 @default.
• W2080761353 cites W1971868256 @default.
• W2080761353 cites W1974959513 @default.
• W2080761353 cites W1976546449 @default.
• W2080761353 cites W1986385517 @default.
• W2080761353 cites W1987036515 @default.
• W2080761353 cites W1988186038 @default.
• W2080761353 cites W1994438289 @default.
• W2080761353 cites W1995611269 @default.
• W2080761353 cites W2001320130 @default.
• W2080761353 cites W2002519757 @default.
• W2080761353 cites W2005323689 @default.
• W2080761353 cites W2006749698 @default.
• W2080761353 cites W2006833903 @default.
• W2080761353 cites W2011870582 @default.
• W2080761353 cites W2012278887 @default.
• W2080761353 cites W2013731232 @default.
• W2080761353 cites W2014116072 @default.
• W2080761353 cites W2018465678 @default.
• W2080761353 cites W2021560672 @default.
• W2080761353 cites W2022857031 @default.
• W2080761353 cites W2024495965 @default.
• W2080761353 cites W2025827388 @default.
• W2080761353 cites W2026434025 @default.
• W2080761353 cites W2026740964 @default.
• W2080761353 cites W2028604188 @default.
• W2080761353 cites W2030299047 @default.
• W2080761353 cites W2030947599 @default.
• W2080761353 cites W2032093190 @default.
• W2080761353 cites W2035689300 @default.
• W2080761353 cites W2036280327 @default.
• W2080761353 cites W2038555613 @default.
• W2080761353 cites W2039108567 @default.
• W2080761353 cites W2044502066 @default.
• W2080761353 cites W2045817362 @default.
• W2080761353 cites W2051850210 @default.
• W2080761353 cites W2052542118 @default.
• W2080761353 cites W2053322034 @default.
• W2080761353 cites W2058732265 @default.
• W2080761353 cites W2064840287 @default.
• W2080761353 cites W2065771461 @default.
• W2080761353 cites W2067300730 @default.
• W2080761353 cites W2069431280 @default.
• W2080761353 cites W2069626422 @default.
• W2080761353 cites W2070609829 @default.
• W2080761353 cites W2073847280 @default.
• W2080761353 cites W2074726723 @default.
• W2080761353 cites W2075039454 @default.
• W2080761353 cites W2083512130 @default.
• W2080761353 cites W2084088511 @default.
• W2080761353 cites W2086652887 @default.
• W2080761353 cites W2094482270 @default.
• W2080761353 cites W2099426097 @default.
• W2080761353 cites W2107900531 @default.
• W2080761353 cites W2109219917 @default.
• W2080761353 cites W2146356156 @default.
• W2080761353 cites W2148283635 @default.
• W2080761353 cites W2150954764 @default.
• W2080761353 doi "https://doi.org/10.1016/j.scitotenv.2013.09.032" @default.
• W2080761353 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24176710" @default.
• W2080761353 hasPublicationYear "2014" @default.
• W2080761353 type Work @default.
• W2080761353 sameAs 2080761353 @default.
• W2080761353 citedByCount "143" @default.
• W2080761353 countsByYear W20807613532013 @default.
• W2080761353 countsByYear W20807613532014 @default.
• W2080761353 countsByYear W20807613532015 @default.
• W2080761353 countsByYear W20807613532016 @default.
• W2080761353 countsByYear W20807613532017 @default.
• W2080761353 countsByYear W20807613532018 @default.
• W2080761353 countsByYear W20807613532019 @default.
• W2080761353 countsByYear W20807613532020 @default.
• W2080761353 countsByYear W20807613532021 @default.
• W2080761353 countsByYear W20807613532022 @default.
• W2080761353 countsByYear W20807613532023 @default.
• W2080761353 crossrefType "journal-article" @default.
• W2080761353 hasAuthorship W2080761353A5016815186 @default.
• W2080761353 hasAuthorship W2080761353A5017612885 @default.
• W2080761353 hasAuthorship W2080761353A5021334632 @default.
• W2080761353 hasAuthorship W2080761353A5027659527 @default.
• W2080761353 hasAuthorship W2080761353A5051660926 @default.
• W2080761353 hasAuthorship W2080761353A5052029815 @default.
• W2080761353 hasAuthorship W2080761353A5088508722 @default.
• W2080761353 hasAuthorship W2080761353A5089565504 @default.
• W2080761353 hasConcept C107872376 @default.

• next