SBR中SRT对总细菌群落结构的影响研究

为了揭示序批式反应器不同污泥停留时间(SRT)下总细菌群落结构的异同及SRT变化对总细菌群落结构的影响,应用聚合酶链式反应-变性梯度凝胶电泳(PCR-DGGE)进行研究。通过克隆测序发现,不同的SRT条件下生物多样性和种群结构会有所差异,既存在各SRT条件下相同的优势菌群(Escherichia coli和Aeromonas sp.),也存在某些SRT下特有的优势菌群(Uncultured Peptostreptococcaceae),SRT为40 d时检测到以降解硫酸盐获得能源的优势微生物。研究还表明,SRT为40 d时多样性指数取得最大值,各SRT条件下微生物的种群相似性差别较大。     

膜生物反应器中不同阶段微生物群落结构演变的研究

为了研究膜生物反应器（membrane bioreactor, 简称MBR）中微生物群落结构的演变情况,对不同阶段运行状况下(包括培养驯化阶段、初期增长阶段、污泥流失阶段和恢复成熟阶段4个阶段)污泥中的微生物进行了考察。从MBR污泥中提取细菌总基因组DNA,进行聚合酶链式反应变性梯度凝胶电泳(PCR-DGGE)图谱的直观分析,以及总细菌的Shannon多样性指数、各污泥样品的相似性分析和聚类分析。研究表明,反应器中的微生物群落比较丰富。不同的阶段状况下,微生物的群落结构变化比较明显,能够比较好地反映MBR的运行状况和系统处理效能的关系,并且发现微生物的群落结构能够随着反应器的运行状况的变化做出调整恢复。     

不同污泥负荷下SBR处理游泳馆污水的微生物群落的演变

污泥负荷直接影响微生物的生长模式,当污泥负荷发生变化时,短时间内微生物群落结构将发生明显变化。为了研究污泥负荷冲击对SBR系统内活性污泥微生物群落结构的影响,应用聚合酶链式反应-变性梯度凝胶电泳(PCRDGGE)技术,对不同污泥负荷冲击时,SBR处理游泳馆污水中的活性污泥微生物进行了考查。研究表明,在不同污泥负荷冲击的条件下,以MBR污泥为接种污泥,SBR工艺处理游泳馆污水系统内活性污泥微生物群落结构变化明显,多样性指数随着污泥负荷升高而逐渐增加并趋于稳定,但污泥冲击负荷过高多样性指数反而下降,SBR系统内微生物菌种大部分为未经培养菌种,肠杆菌属、甲苯单胞菌属以及γ-变形菌纲细菌等。微生物通过对不同负荷阶段环境条件的适应及演变,逐渐形成了适应相应污泥负荷的微生物种群。     

CAS和MBR工艺污泥微生物在贫营养环境中代谢产物的研究

在恶劣环境下不同污泥的微生物代谢产物组分是具有差异的。这种差异将导致活性污泥对环境的适应能力有所不同。MBR工艺和传统活性污泥法(CAS)工艺的污泥在贫营养的恶劣条件下适应能力也有所不同。由于MBR污泥在环境适应的初期便能大量的利用可生物降解的EPS作为碳源,并迅速产出SMP维持细胞两侧压力,使得其污泥活性降低速度较为缓慢。而CAS工艺污泥则经过一段时间的适应后,才能将EPS中可生物降解的部分作为营养物质进行代谢。CAS污泥对EPS降解能力低于MBR污泥,污泥中残存的EPS高于MBR污泥。当污泥中微生物大量死亡时,由于EPS的保护作用,污泥絮体得到较大的保存,胞内物质不能大量扩散至污泥上清液中。两者EPS中蛋白质和多糖呈下降趋势,而SMP的蛋白质和多糖呈上升趋势,且微生物对多糖的利用能力高于蛋白质。     

膜污染状态下的胞外聚合物、细菌数量及微生物群落结构研究

研究了膜污染状态下膜生物反应器(MBR)中混合液污泥和膜丝表面污泥的胞外聚合物(EPS)含量、细菌数量以及微生物种群结构的情况。结果表明:EPS主要由蛋白质组成,膜丝表面污泥中的EPS含量较高,高达68.3mg/g;MBR污泥中细菌的数量级基本达109个/g,其中膜丝表面污泥细菌数量较高;MBR混合液污泥和膜丝表面污泥微生物群落的Shannon-Weaver指数分别为2.639和2.303,两者微生物群落结构的相似性系数达到0.833,两者的优势菌均为黄色单胞菌,变形杆菌门和拟杆菌门是膜丝表面种类较多的菌群,可能与膜污染有密切的联系。深入分析膜污染形成原因和过程,对膜污染的防治具有重要的意义。     

膜生物反应器污泥内源消化及SMP变化

膜生物反应器（MBR）中高污泥浓度和低F/M会导致部分微生物长期处于贫营养状态下，因此采用污泥内源消化试验模拟MBR中实际存在的贫营养现象。比较了好氧消化（AD）和好氧/缺氧消化（A/A/D）2种模式对于A²O+MBR工艺剩余污泥的内源消化效果及SMP的变化。研究结果表明，常温条件下A/A/D 20 d MLVSS的去除率可达到50%，AD为42%，缺氧段的引入促进了有机物和营养物质等的释放和去除，SMP浓度均呈现出显著降低而后缓慢增长并趋于稳定的趋势。EEM光谱分析表明，SMP中不同的荧光物质在内源消化过程中呈现出不同的变化规律。GPC分析认为，内源消化过程中SMP的分子量范围逐渐扩大，小分子量有机物呈增长趋势，A/A/D对SMP的降解比AD更为有效。     

印染废水接触氧化池中悬浮污泥和生物膜的微生物群落比较分析

为了揭示接触氧化池中悬浮污泥和生物膜菌群群落结构的异同,提取基因组DNA,采用PCR扩增与454高通量测序技术对两者菌群测序并进行了操作单元(OTU)聚类分析、多样性分析和分类学分析。结果表明,悬浮污泥和生物膜菌群的高通量测序分析分别得到优化序列8 256条和10 592条,测序覆盖深度都在80%左右,经过97%相似度归并后分别得到570个OTUs和694个OTUs,菌群多样性分析显示悬浮污泥内菌群的丰度和多样性都低于生物膜,悬浮污泥有356个属的细菌构成,而生物膜内则有387个,都归属于21个门。悬浮污泥和生物膜内不仅存在共有菌种,也含有各自的特定菌种,说明不同的微环境使其有了相对应的优势群落。通过这种差异的比较分析,更能准确地了解接触氧化池中微生物的群落组成情况,有利于分析其与系统功能的关系。     

ABR处理模拟畜禽养殖废水中有机物的快速启动与运行优化研究

研究了厌氧折流板反应器(ABR)处理模拟畜禽养殖废水的快速启动过程与运行条件的优化。通过接种厌氧颗粒污泥、固定停留时间、逐步升高进水负荷的方式进行快速启动;64 d后,ABR的有机负荷(OLR)达到5.7 kg COD·(m3·d)~(-1),COD去除率为98%,表明快速启动成功。ABR各格室中成熟颗粒污泥的浓度在7.14~26.17 g·L~(-1)之间,中位直径从开始启动时的0.89 mm增长到1.18~1.58 mm,平均增长速度为7.28×10-3mm·d~(-1)。通过16Sr DNA、PCR-DGGE技术对ABR的成熟颗粒污泥的微生物群落进行分析,发现了序列最相似的产酸菌包括:Raoultella ornithinolytica、Uncultured Clostridiales bacterium、Staphylococcus sp.、Propionibacterium sp.、Uncultured Acidobacteria bacterium、Brevibacterium casei等,产氢菌Uncultured Clostridium sp.等,以及产甲烷菌Uncultured Firmicutes bacterium等,且这些微生物从ABR第1格室到第5格室呈现种类和丰度依次递减的趋势,不同格室中微生物群落发生了演替。在水力停留时间(HRT)24 h,运行温度(32±1)℃时ABR处理模拟畜禽养殖废水的效果较好。     

污泥好氧颗粒化过程中氨氧化菌群结构的演替与分析

为了揭示颗粒污泥形成过程中氨氧化菌(AOB)群落结构的演替规律,利用变性梯度凝胶电泳(DGGE)、克隆测序和实时定量聚合酶链式反应(real-time PCR)等分子生物学技术对AOB群落的演替进行了研究。DGGE结果表明,污泥接种驯化期,AOB群结构的变化较为剧烈,在外加选择压的作用下,种群多样性迅速下降;但随着污泥颗粒化的完成而趋于稳定。测序结果表明,接种污泥中的大多数亚硝化单胞菌属因可快速适应工艺的淘洗过程而被保留在系统内,而亚硝化螺菌属逐渐被淘汰。real-time PCR结果表明,在经历了运行初期的淘洗后,AOB含量随着污泥浓度的提高而逐渐增长;但污泥的氨氧化活性随着污泥浓度的增长而降低。     

全细胞脂肪酶(菌)对SBR系统中微生物群落演替的影响

将具有油脂污水处理功能的全细胞脂肪酶(菌)制剂,直接加入到SBR系统的活性污泥中,应用PCR-DGGE技术的应用,研究该制剂对活性污泥中微生物群落演替的影响。16S rDNA DGGE图谱表明投加全细胞脂肪酶(菌)制剂72h后,菌群丰富度Rs为57%、与空白组的48%相比变化不明显,不同样品相似性系数Cs在48.1%~74.4%之间,表明投加全细胞脂肪酶(菌)对活性污泥中原核微生物群落的演替没有明显影响。18S rDNA DGGE图谱表明,投加全细胞脂肪酶(菌)制剂72 h后,菌群丰富度Rs为72%、与空白组的22%相比存在显著性的差异,不同样品相似性系数Cs在14.5%~73.7%之间,而且优势菌体也发生动态变化,表明投加全细胞脂肪酶(菌)后,对活性污泥中的真核微生物群落演替影响明显。     

Ecological recovery of vegetation at a former industrial sludge basin and its implications to phytoremediation

Examination of a former industrial sludge basin containing organic pollutants showed that the basin had undergone substantial ecological recovery through natural forces following the removal of surface water in 1982. Conventional phases of ecological recovery (plant invasion and succession) have occurred, but the structure of the biodiverse plant community (51 species and 22 families) was different from that at a recovering non-polluted disturbed site. Three plant species (Bermuda grass, mulberry, and sunflower) believed to be early invaders of the basin still persist in large numbers indicating that these species are well suited to cope with normal environmental stresses at this area (i.e. seasonal drought and flood) as well as organic pollutants. There was an indication that early invaders of the site fostered disappearance of contaminants thereby creating more favorable conditions for a broader spectrum of plants to grow. Vegetation analyses of naturally vegetated hazardous waste sites hold promise as a screening device for identifying plant species and management practices worthy of further phytoremediation investigations.     

不同再生水处理工艺出水水质回用途径适应性分析

为分析典型再生水处理工艺出水的回用途径适应性,采用标准指数法评价了4座不同处理工艺的再生水厂出水质量,为再生水处理工艺选择和安全回用提供参考。结果表明,4种再生水处理工艺出水用于市政杂用水时基本是安全的;除反渗透(RO)工艺外,其他工艺出水回用于景观环境用水时都存在氮磷指标超标问题;膜处理工艺的出水可以满足工业用水标准,但是常规絮凝过滤工艺出水用作工业用水应注意氮磷等指标的进一步处理;各种再生水处理工艺出水质量均不能满足地下水回灌用水标准,主要是氨氮和环境激素DBP超标问题,用作地下水回灌用水时存在一定的环境风险。     

Causes of change in nitrophytic and oligotrophic lichen species in a Mediterranean climate: impact of land cover and atmospheric pollutants

With the aim of determining the main drivers of changes in nitrophytic and oligotrophic macro-lichen communities in an industrial region with a Mediterranean climate, we considered both land-cover types and atmospheric pollutants. We determined the relation between the abundance of nitrophytic and oligotrophic species with environmental factors considering the distance of influence of land-cover types. The results showed that oligotrophic species decreased in the proximity of artificial areas, barren land and agricultural areas, associated with higher concentrations of NO₂ and Zn, and Ti, probably dust of industrial and agricultural origin. Nitrophytic species were positively related to all the mentioned land-cover types, and with higher concentrations of Fe and N. Magnesium, probably from ocean aerosols, was negatively related to oligotrophic species and positively to nitrophytic.     

Recolonization and succession of subtidal macrobenthic infauna in sediments contaminated with cadmium

Recolonization and succession of macrobenthic infauna in defaunated sediment contaminated with Cd were studied over a period of 14 months. Trays with defaunated sediment contaminated with cadmium, and trays with defaunated (control) sediment, were exposed at the subtidal in a subtropical environment. Macrobenthic succession exhibited different patterns in Cd-contaminated and control sediments. Abundance and species number were significantly higher in Cd-contaminated sediment during early succession, suggesting that cadmium may facilitate recolonization of certain species of macrobenthos. Cadmium also led to a significant change in species composition in initial colonization and subsequent succession. No significant difference in abundance, species number, diversity and species composition was found between Cd-contaminated and control sediments at the end of experiment, suggesting a stable benthic community was arrived within 14 months.     

Gram stain index of a natural bacterial community at a nutrient gradient in the freshwater environment

Species succession of a natural bacterial community was indicated by the Gram stain index (GSI) using an experimental nutrient gradient in an oligotrophic pond created with an in situ gradostat. Various trophic conditions, ranging from eutrophic to mesotrophic, were formed experimentally with continuous inflow of sterile peptone solution in the gradostat, while the water mass outside the gradostat was oligotrophic. The GSI spectra of the natural bacterial populations show different profiles in accordance with the trophic level of the ambient water and the time progression of adaptation to different levels of eutrophication. Therefore, GSI can be used as a potential indicator of organic pollution in aquatic environments.     

磺胺和四环素类抗生素对活性污泥性能的影响简

废水处理工艺中抗生素类污染物的存在可能会对生物处理过程产生长期而深远的影响，为探明此类污染物对废水生物处理主体活性污泥性能等方面的影响，采用间歇培养法研究了活性污泥法处理污水时，抗生素类污染物的存在对活性污泥性能如胞外聚合物（EPS）、污染物处理能力、脱氢酶活性和群落结构的影响。结果表明，抗生素的存在会导致活性污泥的胞外聚合物总量及其主要组分蛋白质和多糖增加，以产生保护屏障；且由于污泥絮体解体，细胞破裂导致EPS中DNA和色氨酸含量增加。同时，由于蛋白质大量增加引起的表面负电荷的增加，使污泥疏水性增强，絮凝性能恶化；污泥絮体解体导致污泥颗粒变小，SVI也随之下降；在活性污泥脱氢酶活性急剧下降的同时，出水TOC迅速升高。此外，抗生素类污染物在抑制活性污泥中大部分细菌的同时，对部分菌群也有刺激生长作用，最终导致活性污泥生物群落结构的改变。四环素类抗生素对活性污泥的EPS和絮凝沉降性能的影响大于磺胺类，而对污水处理能力和群落结构的影响则不如磺胺类。抗生素类污染物的长期存在会对活性污泥沉降性能、絮凝性能、脱氢酶活性以及活性污泥群落结构等产生一系列负面影响，进而影响污染物去除效果，导致出水水质恶化。     

Effects of seasonal succession and water pollution on the protozoan community structure in an eutrophic lake

The purpose of the research is to study the seasonal succession of protozoa community and the effect of water quality on the protozoa community to characterize biochemical processes occurring at a eutrophic Lake Donghu, a large shallow lake in Wuhan City, China. Samples of protozoa communities were obtained monthly at three stations by PFU (polyurethane foam unit) method over a year. Synchronously, water samples also were taken from the stations for the water chemical quality analysis. Six major variables were examined in a principal component analysis (PCA), which indicate the fast changes of water quality in this station I and less within-year variation and a comparatively stable water quality in stations II and III. The community data were analyzed using multivariate techniques, and we show that clusters are rather mixed and poorly separated, suggesting that the community structure is changing gradually, giving a slight merging of clusters form the summer to the autumn and the autumn to the winter. Canonical correspondence analysis (CCA) was used to infer the relationship between water quality variables and phytoplankton community structure, which changed substantially over the survey period. From the analysis of cluster and CCA, coupled by community pollution value (CPV), it is concluded that the key factors driving the change in protozoa community composition in Lake Donghu was water qualities rather than seasons.     

新型填料曝气生物滤池处理抗生素类废水

针对抗生素类制药工业废水难处理的特点,将某高效复合微生物菌群负载在以中孔和大孔为主的污泥炭颗粒的表面和孔隙内部,制备得到生物改性污泥炭。采用装填生物改性污泥炭的新型填料曝气生物滤池及向下流、中下部曝气的运行方式对以抗生素类制药废水为主的混合工业废水絮凝沉淀池出水中的主要污染物进行深度处理。结果表明,污泥炭载体在水中发挥2种作用,即吸附功能和载体功能,污泥炭表面及内部孔隙结构非常发达,为不同种类和功能的高效微生物菌群的构建和负载提供了良好的载体;采用粒径为8~10 mm的生物改性污泥炭、HRT 100 min及气水比3∶1,进水COD浓度96~123 mg/L、NH3-N浓度8.8~17.4 mg/L、TP浓度0.390~0.623 mg/L、pH 6~9,新型填料曝气生物滤池对混合工业废水中的COD、NH3-N和TP的平均去除率分别为47.2%、49.2%和35.6%,相比污水厂常规陶料填料生物滤池分别提高了27.9、21.6和12.8个百分点,该工艺处理效果稳定,运营管理简单,为极难生物降解的抗生素类废水为主的混合工业废水的深度处理提供了新思路。