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@article{1549502,
author = {Jaša, Libor and Sadílek, Jan and Kohoutek, Jiří and Strakova, Lucie and Maršálek, Blahoslav and Babica, Pavel},
article_location = {OXFORD},
article_number = {April},
doi = {http://dx.doi.org/10.1016/j.watres.2018.12.059},
keywords = {Cyanobacteria; Drinking water treatment; Microcystins; Passive sampling; POCIS; Time-integrative monitoring},
language = {eng},
issn = {0043-1354},
journal = {Water Research},
title = {Application of passive sampling for sensitive time-integrative monitoring of cyanobacterial toxins microcystins in drinking water treatment plants},
url = {https://www.sciencedirect.com/science/article/pii/S004313541930020X?via%3Dihub},
volume = {153},
year = {2019}
}
TY - JOUR
ID - 1549502
AU - Jaša, Libor - Sadílek, Jan - Kohoutek, Jiří - Strakova, Lucie - Maršálek, Blahoslav - Babica, Pavel
PY - 2019
TI - Application of passive sampling for sensitive time-integrative monitoring of cyanobacterial toxins microcystins in drinking water treatment plants
JF - Water Research
VL - 153
IS - April
SP - 108-120
EP - 108-120
PB - PERGAMON-ELSEVIER SCIENCE LTD
SN - 00431354
KW - Cyanobacteria
KW - Drinking water treatment
KW - Microcystins
KW - Passive sampling
KW - POCIS
KW - Time-integrative monitoring
UR - https://www.sciencedirect.com/science/article/pii/S004313541930020X?via%3Dihub
L2 - https://www.sciencedirect.com/science/article/pii/S004313541930020X?via%3Dihub
N2 - Calibrated adsorption-based passive samplers were used for time-integrative monitoring of microcystins (MCs) in three full-scale drinking water treatment plants (DWTPs) in the Czech Republic during two vegetation seasons (Jun-Nov), in parallel with traditional discrete sampling. MCs were detected in epilimnetic water samples at concentrations up to 14 mu g/L, but their levels in raw water in DWTPs were below 1 mu g/L WHO guideline value for drinking water. Conventional treatment technologies (coagulation/filtration) eliminated cyanobacteria and intracellular toxins but had a limited removal efficiency for extracellular toxins. MCs were regularly detected in final treated water, especially in DWTPs equipped only with the conventional treatment, but their concentrations were below the quantitation limit of discrete sampling (<25 ng/L). Passive samplers in combination with LC-MS/MS analysis provided excellent sensitivity allowing to detect time-weighted average (TWA) concentrations of MCs as low as 20-200 pg/L after 14-d deployment. Median MC TWA concentrations in the treated water from the individual DWTP5 were 1-12 ng/L, and most likely did not present significant health risks. Passive samplers well reflected spatiotemporal variations of MCs, actual concentrations of extracellular toxins, MC removal efficiency in DWTP5, and toxin concentrations in the treated water. Passive sampling can be effectively used for assessment and management of MC health risks during DWTP operation.
ER -
JAŠA, Libor, Jan SADÍLEK, Jiří KOHOUTEK, Lucie STRAKOVA, Blahoslav MARŠÁLEK a Pavel BABICA. Application of passive sampling for sensitive time-integrative monitoring of cyanobacterial toxins microcystins in drinking water treatment plants. \textit{Water Research}. OXFORD: PERGAMON-ELSEVIER SCIENCE LTD, 2019, roč.~153, April, s.~108-120. ISSN~0043-1354. Dostupné z: https://dx.doi.org/10.1016/j.watres.2018.12.059.
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