Atenolol removal in microcosm constructed wetlands
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Taylor&Francis
Abstract
Microcosm constructed wetland systems established with a matrix of light
expanded clay aggregates (LECA) and Typha spp. or Phragmites australis were
used to evaluate their ability to remove atenolol from wastewater. Combined with
an efficient SPE concentration step, the use of HPLC-DAD yielded an analytical
method for atenolol quantification with very low LOQ (9 ngmL 1) and high
reproducibility (RSD54%). Overall removal efficiencies of 92.5% and 94.5%
were achieved after a retention time of only 4 days with the microcosm systems
planted with Phragmites australis and Typha spp., respectively. The removal
kinetics was characterised by an initial fast step (removal of about 75% after just
24 h) which is mainly attributable to adsorption on the LECA matrix. Atenolol
removal in LECA beds continues to increase in a steady pace up to the end of
the assay (8 days) being nevertheless about 5–10% lower than those observed in
the planted beds after the first 4 days. For the retention time of 4 days most of the
atenolol is removed by the LECA matrix but an additional 12–14% of the overall
removal efficiency can be attributed to the Typha and Phragmites plants, which is
in agreement with other published reports. Despite the fact that further tests using
larger-scale flowing systems are required to evaluate fully the atenolol behaviour in
constructed wetlands, this study points to the possible application of these
low-cost wastewater treatment systems to treat atenolol contaminated wastewater.
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Citation
Dordio, Ana, Pinto, José, Barrocas Dias, Cristina, Pinto, Ana Paula, Palace Carvalho, Alfredo J. and Teixeira, Dora
Martins(2009)'Atenolol removal in microcosm constructed wetlands',International Journal of Environmental Analytical
Chemistry,89:8,835 — 848