• 关键词：缺氧/好氧反硝化  异养硝化  脱氮  去除速率  系统发育分析

• 基金项目：国家自然科学基金资助项目(No. 51078191,51278258);青岛市应用基础研究项目(No. 13-1-4-203-jch)

• 赵丹
• 青岛大学化学化工与环境学院, 青岛 266071

• 于德爽
• 青岛大学化学化工与环境学院, 青岛 266071

• 李津
• 青岛大学化学化工与环境学院, 青岛 266071

• 汪晓晨
• 青岛大学化学化工与环境学院, 青岛 266071

• 摘要：从稳定运行的ASBR厌氧氨氧化反应器中分离筛选出一株在缺氧和好氧条件下均具有高效反硝化能力的菌株ZD8,该菌株为假单胞属(Pseudomonas sp.),大小2 μm×0.25 μm,无鞭毛和芽孢.实验结果表明,缺氧条件下,ZD8最适合的碳源为柠檬酸钠;当C/N为10时,具有最佳的反硝化效果.菌株ZD8在缺氧条件下不具有硝化能力.在好氧条件下菌株ZD8获得最佳反硝化效果的C/N为22,最适合pH范围是7.2~9.9.菌株ZD8在好氧条件下具有高效的异养硝化能力,NH₄⁺-N平均去除速率为8.3 mg·L^-1·h^-1.当以KNO₃为氮源时ZD8的反硝化速率为13.1 mg·L^-1·h^-1;而以NaNO₂为氮源时,其反硝化速率为6.98 mg·L^-1·h^-1.在同时存在NH₄⁺-N和NO₃^--N或NH₄⁺-N和NO₂^--N的系统中,菌株ZD8均首先利用NH₄⁺-N发生硝化作用,NH₄⁺-N的存在对反硝化具有抑制作用,并且NH₄⁺-N对NO₂^--N的反硝化抑制作用更强;在同时存在NO₃^--N和NO₂^--N的系统中,菌株ZD8优先利用NO₃^--N进行好氧反硝化脱氮.

• Abstract：A bacterial strain named ZD8 was isolated and identified from an ASBR anaerobic ammonia oxidation reactor. Its size was 2 μm×0.25 μm without flagellum and spore. The experimental results showed that under anoxic condition, the optimal carbon resource for ZD8 was sodium citrate;when C/N was 10, the strain had optimal denitrification efficiency. Under anoxic condition, ZD8 did not have heterotrophic nitrifying ability. However, under oxic condition, the optimal denitrification efficiency appeared when C/N was 22 and the optimal pH range was 7.2~9.9. Under anoxic condition, strain ZD8 had good heterotrophic nitrification capacity, and the average removal rate of NH₄⁺-N was 8.3 mg·L^-1·h^-1. When KNO₃ was utilized as nitrogen source, the average removal rate of NO₃^--N was 13.1 mg·L^-1·h^-1. When NaNO₂ was utilized as nitrogen source, its removal rate was 6.98 mg·L^-1·h^-1, In the mixed media of ammonium-nitrate or ammonium-nitrite, ZD8 was preferred to use ammonium to perform heterotrophic nitrification;the ammonium had inhibition on denitrification, and the inhibition to nitrite denitrification was more serious than nitrate denitrification. The strain preferred nitrate as the N source in the nitrate-nitrite mixed media.

• Key words：anoxic/oxic denitrification  heterotrophic nitrification  nitrogen removal  removal rate  phylogenetic analysis

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