1. Investigating the origins of acute and long-term toxicity posed by municipal wastewater using fractionation
- Author
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Xiaokun Liu, Ke Dong, Kai Zheng, Xiaochang C. Wang, and Xiaoyan Y. Ma
- Subjects
Chemistry ,Luminescent bacteria ,0208 environmental biotechnology ,02 engineering and technology ,General Medicine ,Fractionation ,Chemical Fractionation ,Wastewater ,010501 environmental sciences ,Waste Disposal, Fluid ,01 natural sciences ,Reclaimed water ,Acute toxicity ,020801 environmental engineering ,Environmental chemistry ,Toxicity ,Environmental Chemistry ,Ecotoxicity ,Waste Management and Disposal ,Effluent ,Water Pollutants, Chemical ,Environmental Monitoring ,0105 earth and related environmental sciences ,Water Science and Technology - Abstract
It has been proven that the raw wastewater, secondary effluent and even reclaimed water may have toxic effects on aquatic organisms. In the present study, fractionation procedures combined with bioassays using luminescent bacteria were conducted to identify the fractions that contributed to the acute and long-term toxicity of municipal wastewater. Solid phase extraction was used to divide dissolved organic matter from the wastewater into three fractions, including non-polar, medium-polar and polar fraction. Among these fractions, although the acute toxicity of municipal wastewater was mainly caused by polar and medium-polar chemicals, the acute toxicity induced by the unit mass of the medium-polar fraction was the greatest. Using three kinds of resins, the organic substances in municipal wastewater were classified into six fractions, and the long-term toxicity of these fractions was further identified. The long-term toxicity of the hydrophobic neutrals, which were the primary toxic substances in raw wastewater, decreased after the conventional secondary biological treatment. Hydrophilic neutrals, which accounted for the majority of organic substances in the secondary effluent, were the main substances with long-term toxicity in the secondary effluent. The identification of fractions with acute and long-term toxicity in municipal wastewater is beneficial for further treatment to attenuate the ecotoxicity of wastewater before discharge into the aquatic environment.
- Published
- 2019
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