[Immobilization of Estrogen-degrading Bacteria to Remove the 17ß-estradiol and Diethylstilbestrol from Polluted Water and Cow Dung].

Estradiol (E2) and diethylstilbestrol (DES) can be enriched in sewage and cow dung, posing serious threats to human and ecological health. Strain Rhodococcus sp. JX-2 and strain Serratia sp. S, which could degrade 17ß-estradiol and diethylstilbestrol, respectively, were immobilized by alginate and then added into sewage and cow dung to remove E2 and DES. The immobilization was determined by orthogonal experiment, and the removal of E2 and DES from sewage and cow dung was compared between treatments of immobilized bacteria, free bacteria and control without bacteria. The influencing factors including inoculation amount, pH value, moisture content, turning time on the removal of E2 and DES were investigated. The optimal conditions of JX-2 and S immobilization were as follows: Strain JX-2: strain S (V/V) 1: 1, alginate concentration 5%, calcium chloride concentration 4%, bacteria-cement ratio 1 : 2. The immobilized strains removed 99. 42% and 84. 59% of the 2 mg.L-1 E2 and DES under laboratory conditions, respectively. The optimal conditions for E2 and DES removal from water by the immobilized strains were as follows: 300 g.L-1 inoculation volume of immobilized strains and pH 5. 0-6. 0. Immobilized bacteria could completely remove DES and remove 95. 85% of E2 from water. The optimal conditions for E2 and DES removal from cow dung by the immobilized strains were: inoculation volume 600 g.kg-1, moisture content 70% and pile turning time 12 h. The immobilized bacteria could completely remove E2 and remove 97. 41% of DES from cow dung.

[Isolation, identification and characterization of a diethylstilbestrol-degrading bacterial strain Serratia sp].

Utilizing the diethylstilbestrol (DES)-degrading bacteria to biodegrade DES is a most reliable technique for cleanup of DES pollutants from the environment. However, little information is available heretofore on the isolation of DES-degrading bacteria and their DES removal performance in the environment. A novel bacterium capable of degrading DES was isolated from the activated sludge of a wastewater treatment plant. According to its morphology, physiochemical characteristics, and 16S rDNA sequence analysis, this strain was identified as Serratia sp.. The strain was an aerobic bacterium, and it could degrade 68.3% of DES (50 mg x L(-1)) after culturing for 7 days at 30 degrees C, 150 r x min(-1) in shaking flasks. The optimal conditions for DES biodegradation by the obtained strain were 30 degrees C, 40-60 mg x L(-1) DES, pH 7.0, 5% of inoculation volume, 0 g x L(-1) of added NaCl, and 10 mL of liquid medium volume in 100 mL flask.