Publication

Bioaugmentation mitigates the impact of estrogen on coliform-grazing protozoa in slow sand filters

Haig, Sarah-Jane
Gauchotte-Lindsay, Caroline
Collins, Gavin
Quince, Christopher
Citation
Haig, Sarah-Jane; Gauchotte-Lindsay, Caroline; Collins, Gavin; Quince, Christopher (2016). Bioaugmentation mitigates the impact of estrogen on coliform-grazing protozoa in slow sand filters. Environmental Science & Technology 50 (6), 3101-3110
Abstract
Exposure to endocrine-disrupting chemicals (EDCs), such as estrogens, is a growing issue for human and animal health as they have been shown to cause reproductive and developmental abnormalities in wildlife and plants and have been linked to male infertility disorders in humans. Intensive farming and weather events, such as storms, flash, flooding, and landslides, contribute estrogen to waterways used to Supply drinking water. This paper explores the impact of estrogen exposure on the performance of slow sand filters (SSFs) used for water treatment. The feasibility and efficacy of SSF bioaugmentation with estrogen-degrading bacteria was also investigated, to-determine whether removal of natural estrogens (estrone, estradiol, and estriol) and overall SSF performarice for drinking water treatment could be improved. Strains for SSF augmentation were isolated from full-scale, municipal SSFs so as to optimize:survival the laboratory-scale SSFs used. concentrations of the natural estrogens, determined by gas chromatography coupled with mass spectrometry (GC-MS), revealed augmented SSFs reduced the overall estrogenic potency of the supplied water by 25% On average and removed significantly more estrone and estradiol than nonaugmented filters. A negative correlation was found between coliform removal and estrogen concentration in nonaugmented filters. This was dire to the toxic inhibition of protozoa:indicating that high estrogen concentrations can have functional implications for SSFs (such as impairing coliform. removal). Consequently, we suggest that high estrogen concentrations could impact:significantly on water quality production and, in particular, on pathogen removal in biological water filters.
Funder
Publisher
American Chemical Society (ACS)
Publisher DOI
10.1021/acs.est.5b05027
Rights
Attribution-NonCommercial-NoDerivs 3.0 Ireland