Stasinakis Athanasios S, Mamais Daniel, Thomaidis Nikolaos S, Danika Elena, Gatidou Georgia, Lekkas Themistokles D
Department of Environment, Water and Air Quality Laboratory, University of the Aegean, University Hill, Mytilene 81100, Greece.
Ecotoxicol Environ Saf. 2008 Jun;70(2):199-206. doi: 10.1016/j.ecoenv.2007.12.011. Epub 2008 Jan 30.
The toxic effects of triclosan (TCS) and nonylphenol (4-n-NP) on activated sludge heterotrophic and autotrophic microorganisms were evaluated. Toxicity experiments with specific oxygen uptake rate (SOUR) and ammonia uptake rate (AUR) revealed that TCS was much more toxic to heterotrophic and autotrophic microorganisms than 4-n-NP. In experiments with heterotrophic biomass, increase of sludge age (theta(c)) from 5 to 15 days resulted in a decrease of median effective concentrations (EC(50)) of TCS from 38.2 to 9.97 mg l(-1) and in an increase of EC(50) values of 4-n-NP from 441 to 649 mg l(-1). In experiments with autotrophic biomass and sludge age of 15 days, significantly lower EC(50) values were obtained for both compounds, indicating the higher sensitivity of nitrifiers to TCS and 4-n-NP. To compare toxicity of TCS and 4-n-NP towards single species and mixed wastewater cultures, experiments were performed using marine bacterium Vibrio fischeri. EC(50) values of 0.22 and 3.51 mg l(-1) were estimated for TCS and 4-n-NP, respectively, indicating the higher sensitivity of this bioassay to toxicants. According to the levels of tested compounds commonly found in influent wastewater and the results of this study, there is a possible risk for deterioration of nitrification in activated sludge systems due to the presence of TCS.
评估了三氯生(TCS)和壬基酚(4-n-NP)对活性污泥中异养和自养微生物的毒性作用。通过比氧摄取率(SOUR)和氨摄取率(AUR)进行的毒性实验表明,TCS对异养和自养微生物的毒性比4-n-NP大得多。在异养生物量实验中,污泥龄(θ(c))从5天增加到15天,导致TCS的半数有效浓度(EC(50))从38.2毫克/升降至9.97毫克/升,而4-n-NP的EC(50)值从441毫克/升增加到649毫克/升。在自养生物量和污泥龄为15天的实验中,两种化合物的EC(50)值均显著降低,表明硝化细菌对TCS和4-n-NP更为敏感。为了比较TCS和4-n-NP对单一物种和混合废水培养物的毒性,使用海洋细菌费氏弧菌进行了实验。TCS和4-n-NP的EC(50)值分别估计为0.
