Biodegradation of 17β-Estradiol, Estrone and Testosterone in Stream Sediments

Biodegradation of 17 beta-estradiol (E2), estrone (E1), and testosterone (T) was investigated in three wastewater treatment plant (WWTP) affected streams in the United States. Relative differences in the mineralization of [4-(14)C] substrates were assessed in oxic microcosms containing saturated sediment or water-only from locations upstream and downstream of the WWTP out fall in each system. Upstream sediment demonstrated significant mineralization of the "A" ring of E2, E1, and T with biodegradation of T consistently greater than that of E2 and no systematic difference in E2 and El biodegradation. "A" ring mineralization also was observed in downstream sediment, with El and T mineralization being substantially depressed relative to upstream samples. In marked contrast, E2 mineralization in sediment immediately downstream from the WWTP outfalls was more than double that in upstream sediment E2 mineralization was observed in water, albeit at insufficient rate to prevent substantial downstream transport The results indicate that, in combination with sediment sorption processes which effectively scavenge hydrophobic contaminants from the water column and immobilize them in the vicinity of the WWTP outfall, aerobic biodegradation of reproductive hormones can be an environmentally important mechanism for nonconservative (destructive) attenuation of hormonal endocrine disruptors in effluent-affected streams.