氨氮对3种吸附态亚硝化单胞菌的抑制动力学  被引量：1

作　　者：蔡雨衡 向斯[1,2] 程凯 CAI Yuheng;XIANG Si;CHENG Kai(Hubei Provincial Key Laboratory of Ecological Restoration for River-Lakes and Algal Utilization,College of Resources and Environmental Engineering,Hubei University of Technology,Wuhan,Hubei 430068,China;Wuhan Micro-Glory Environmental Technology Innovation Company Limited,Wuhan,Hubei 430068,China)

机构地区：[1]湖北工业大学资源与环境工程学院河湖生态修复与藻类利用湖北省重点实验室,湖北武汉430068 [2]武汉微盛科创环境科技有限公司,湖北武汉430068

出　　处：《微生物学通报》2021年第11期3996-4005,共10页Microbiology China

基　　金：国家科技重大专项(2017ZX07602002);湖北省大学生创新创业训练计划(201810500085)。

摘　　要：【背景】氨氮浓度会明显影响亚硝化单胞菌的活性,但氨氮浓度对吸附态亚硝化单胞菌菌种的抑制动力学尚缺乏研究。【目的】研究氨氮浓度对3种吸附态亚硝化单胞菌(Nitrosomonas eutropha CZ-4、Nitrosomonas halophila C-19和Nitrosomonas europaea SH-3)的影响。【方法】以碳酸钙作为吸附基质,设定氨氮浓度为25−1000 mg/L,测定3种亚硝化单胞菌(N.eutropha CZ-4、N.halophila C-19和N.europaea SH-3)的亚硝氮积累速率与最大比生长速率,并通过Edwares2模型建立氨氧化的抑制动力学方程。【结果】N.halophila C-19在初始氨氮浓度为50−100 mg/L时的亚硝氮积累最快,N.europaea SH-3的亚硝氮积累则在初始氨氮浓度为50−200 mg/L时最快,而N.eutropha CZ-4则适于在初始氨氮浓度为50−400 mg/L时积累亚硝氮;N.eutropha CZ-4的最大比生长速率出现在初始氨氮浓度为50−400 mg/L时,明显高于N.halophila C-19(25−100 mg/L),而N.europaea SH-3的生长速度在初始氨氮浓度为50−800 mg/L区间内无显著差异;N.europaea SH-3的KI(922.76 mg/L)显著高于N.eutropha CZ-4(597.88 mg/L),而CZ-4的KI又显著高于N.halophila C-19(186.24 mg/L),N.europaea SH-3的K_(m)(72.06 mg/L)显著高于N.halophila C-19(23.23 mg/L)。【结论】3种吸附态亚硝化单胞菌的生长和氨氧化对氨氮浓度变化的响应存在明显差异,对于认识不同亚硝化单胞菌在不同氨氮浓度污水中的功能并开发相应的工程技术具有重要意义。[Background]The activity of Nitrosomonas was significantly influenced by NH_(3)^(-)N concentration,but the inhibition kinetics of NH_(3)^(-)N concentration of the adhesive Nitrosomonas were still unknown.[Objective]The influence of NH_(3)^(-)N concentration on 3 strains of adhesive Nitrosomonas(Nitrosomonas eutropha CZ-4,Nitrosomonas halophila C-19 and Nitrosomonas europaea SH-3).[Methods]Three strains of Nitrosomonas(N.eutropha CZ-4,N.halophila C-19 and N.europaea SH-3)were cultured under different initial NH_(3)^(-)N concentrations(ranged from 25-1000 NH_(3)^(-)N mg/L)with calcium carbonate as the adsorption matrix.The accumulation rate of NO_(2)^(-)-N and the specific growth rate were measured,the inhibition kinetic equations of ammonia oxidation were also established by Edwares2 model.[Results]The accumulation of NO_(2)^(-)-N of N.halophila C-19 was fastest when the initial NH_(3)^(-)N concentration was 50-100 mg/L,while the NO_(2)^(-)-N accumulation rate was maximum when the initial NH_(3)^(-)N concentration was 50-200 mg/L for N.europaea SH-3 and 50-400 mg/L for N.eutropha CZ-4,respectively.The maximum specific growth rate of N.eutropha CZ-4 occurred at the initial NH_(3)^(-)N concentration of 50-400 mg/L,which was much higher than N.halophila C-19(25-100 mg/L).There was no significant difference in growth rates for N.europaea SH-3 when the initial NH_(3)^(-)N concentration ranged from 50 mg/L to 800 mg/L.The KI of N.europaea SH-3(922.76 mg/L)was significantly higher than N.eutropha CZ-4(597.88 mg/L),and also the KI of N.eutropha CZ-4 was significantly higher than N.halophila C-19(186.24 mg/L).Moreover,the K_(m)(72.06 mg/L)of N.europaea SH-3 was significantly higher than N.halophila C-19(23.23 mg/L).[Conclusion]The three strains of adhesive Nitrosomonas showed great differences both in ammonia oxidation activity and growth.The results may not only help to understand the functions of different Nitrosomonas in wastewaters with different NH_(3)^(-)N concentrations,but also contribute to develop corresponding e

关 键 词：亚硝化单胞菌 游离氨 氨氧化活性 

分 类 号：X172[环境科学与工程—环境科学] X703