State of the art of the environmental behaviour and removal techniques of the endocrine disruptor 3,4-dichloroaniline

Abstract

ABSTRACTIn recent years, the presence of Endocrine Disrupting Chemicals (EDCs) in wastewater discharges from agricultural and industrial sources,[1] fresh- and estuarine-waters, as well as soils, has been reported in the literature.[2] Studies of adverse changes in wildlife, linked to environmental exposure to these substances, and the suggestion that humans could also be at similar risk of adverse health effects,[3–5] have raised concern for urgent action to understand and reduce such risks. 3,4-Dichloroaniline (3,4-DCA) has been recognized as an EDC, with regards to endocrine disruption data for both wildlife populations and human health.[5]3,4-DCA is present in the environment as a product of the biodegradation of phenylurea and phenylcarbamate pesticides[6,7]; furthermore, it can be introduced from industrial and municipal wastewater that is insufficiently purified, or via accidental spills.[8–10] Increasing concentrations of 3,4-DCA in soil and water are the result of its high persistence and accumulation, as well as its low biodegradability.[11,12] Hence, remediation techniques require in-depth study, especially when considering the low removal achieved by traditional activated sludge treatments, and the generation of carcinogenic trihalomethanes as a consequence of the chlorine oxidation methods frequently used in drinking water plants.[13] Fe0/H2O2 systems, photodegradation using doped TiO2, and the use of dielectric barrier discharge reactors, seem to be the most promising techniques for the removal of 3,4-DCA from water.