培育土壤中硫化细菌和硫酸盐还原细菌的消长特征初探

通过不同含水量下潮土和褐土的培育试验,测定了土壤中硫化细菌和硫酸盐还原细菌的消长变化及水溶性硫、有机硫和盐酸挥发性硫的含量。结果表明,土壤中硫化细菌含量随土壤含水量的增加而有增大趋势,其消长变化与有机硫和盐酸挥发性硫的含量变化有关,硫酸盐还原菌含量亦随土壤含水量的增加趋于增大,潮土中硫酸盐还原菌的消长与水溶性硫含量呈显著相关,硫化细菌和硫酸盐还原细菌的消长曲线表明,这两类硫细菌的消长呈相反的变化趋势。     

锰细菌在加拿大海盆、楚科奇海沉积物中的分布

用平板法分别在4℃和25℃时对北极加拿大海盆和楚科奇海10个沉积物岩芯中的锰细菌进行培养,并测定了检出率和含量.分析结果表明,4℃与25cc温度下培养的锰细菌含量范围均为(-)～3.3×108个g-1,锰细菌平均检出率分别为77.78%、86.03%.平均含量分别为5.60×106、7.91×106个g-1;该结果高于太平洋深海沉积物中的锰细菌含量,比北极阿拉斯加淡水湖湖水中的锰细菌含量高1个数量级,比印度洋海岭Carlsberg Ridge区热水区海水样品中的锰细菌含量高3个数量级,证实寒冷北极海同样广布锰细菌.对锰细菌在不同水深、经纬度以及沉积物深度中的分布进行了讨论;结果表明,锰细菌检出率随沉积物深度的增加而增大.含量变化呈现浅层少、下层多之势;纬度分布范围较大,并显出有扩大的趋势.水深对沉积物中锰细菌也有一定影响.尽管锰细菌对温度有较强的适应能力,环境温度的升降对本研究区锰细菌具有双重作用.     

游离和固定化SRB污泥处理含锌废水比较研究

采用聚乙烯醇(PVA)-硫酸铵包埋法对硫酸盐还原菌(SRB)进行固定化处理。以含锌废水为处理对象,利用内聚营养源固定化小球与游离污泥做对比实验,考察硫酸根去除率、锌离子去除率、出水COD值等因素,并借助EDX分析小球内部锌离子含量。实验结果表明,采用内聚营养源固定化小球,硫酸根去除率为55.7%,锌离子去除率达98%,出水COD<100mg/L,进行多次循环实验,出水锌离子浓度仍达到污水综合排放二级标准;采用游离污泥,硫酸根去除率为46.1%,锌离子去除率为98.2%,出水COD1800mg/L以上,用于二次处理废水,锌离子去除率仅为60.4%。固定化小球循环处理废水四次后,每克固定化小球内部锌离子含量为0.04364mg。     

油田水反硝化技术抑制硫酸盐还原菌活性研究进展

综述了国内外应用反硝化技术抑制硫酸盐还原的沿革和最新进展。随着油田系统采出水中SRB造成危害的日益严重,常规的物理和化学法因其高成本、低效率等原因已不能满足需求,生态抑制法逐渐受到人们关注。着重介绍了反硝化技术对硫酸盐还原的抑制作用,阐述了当前国内外学者在此领域的研究现状,总结了研究者提出的几种机理,重点介绍了生物竞争抑制机制、中间产物抑制机制、形成厌氧硫循环机制、同时具有反硝化和硫酸盐还原的细菌作用机制以及电位抑制机制。列举了国内外成功应用反硝化抑制硫酸盐还原的成功实例,并总结了该领域研究的热点问题。     

渭河杨凌段水系中头孢曲松耐药菌和耐药基因

调研了杨凌抗生素使用和过期抗生素处理情况,研究了渭河杨凌段及其在杨凌境内主要支流中耐药菌（主要为耐头孢曲松细菌）及常见耐药基因的分布特征.杨凌区β-内酰胺类药物占抗生素总用量的55.0%,64.0%的过期抗生素被合理处理;水样中耐头孢曲松细菌平均浓度均大于500CFU/mL,分离到5种气单胞菌（n=44）和1株大肠杆菌;45株（100.0%）菌全部耐受氨苄西林,阿莫西林/克拉维酸和头孢曲松,多重耐药率为95.6%;水样总DNA中ampC,sul1,sul2,sul3,tetB,tetC,tetM,aadA,cmlA,catA,bla_TEM,bla_NDM,aph（2’）-Id和aac（6’）-Ib检出率均为100.0%,15株耐头孢曲松代表菌中ampC与bla_TEM检出率均为100.0%.渭河杨凌段及其主要支流中多重耐药细菌检出率较高,耐药基因多样化.研究可为杨凌区水体中耐药菌污染治理提供参考.     

产脲酶细菌矿化修复Cd和Pb污染土壤效应和机制

为了修复重金属污染土壤,保障蔬菜品质安全,利用产脲酶筛选培养基从重金属污染生菜根际土壤中筛选产脲酶细菌.通过溶液吸附和土壤静置培养试验研究功能菌株对Cd和Pb的固定钝化机制;利用水培试验研究功能菌株对不同品种蔬菜生长及吸收Cd和Pb的影响.结果显示,从生菜根际土壤中共分离到10株产脲酶细菌,其中菌株Microbacterium foliorum CH6和Bacillus thuringiensis N3的产脲酶能力（分别为62.6,59.6mS/（cm·min））和吸附钝化Cd和Pb （84.6%~91.3%）的能力最高.扫描电镜-能谱、傅里叶红外光谱和X衍射分析表明,菌株CH6和N3能够通过细胞壁吸附和诱导重金属成矿反应,降低溶液中的Cd和Pb含量.土壤静置试验表明,与不接种菌株对照相比,菌株CH6和N3均能降低土壤中可交态Cd和Pb （46.3%~66.7%）的含量,增加碳酸盐结合态及残渣态Cd和Pb （40%~95.4%）的含量.砂培试验表明,菌株CH6和N3均能显著降低生菜、上海青和空心菜可食用部分中Cd （39.2%~81.4%）和Pb （27.4%~82.3%）的含量.产脲酶细菌CH6和N3能够矿化土壤中的Cd和Pb,降低土壤中重金属有效态含量,阻控生菜、上海青和空心菜对Cd和Pb的吸收.     

Effects of disinfection efficiency on microbial communities and corrosion processes in drinking water distribution systems simulated with actual running conditions

The effects of disinfection efficiency on microbial communities and the corrosion of cast iron pipes in drinking water distribution systems (DWDSs) were studied. Two annular reactors (ARs) that simulated actual running conditions with UV/Cl₂ disinfection and chlorination alone were used. High chlorine consumption and corrosion rate were found in the AR with UV/Cl₂. According to functional genes and pyrosequencing tests, a high percentage of iron recycling bacteria was detected within the biofilm of the AR with Cl₂ at early running stage, whereas siderophore-producing bacteria were dominant in the biofilm of the AR with UV/Cl_2. At the early running stage, the sequential use of UV light and an initial high chlorine dosage suppressed the biomass and iron-recycling bacteria in both bulk water and biofilms, thereby forming less protective scales against further corrosion, which enhanced chlorine consumption. Non-metric multidimensional scaling analysis showed that the bacterial communities in the ARs shaped from within rather than being imported by influents. These results indicate that the initial high disinfection efficiency within the distribution system had not contributed to the accumulation of iron-recycling bacteria at the early running stages. This study offer certain implications for controlling corrosion and water quality in DWDSs.     

Effects of EDTA and plant growth-promoting rhizobacteria on plant growth and heavy metal uptake of hyperaccumulator Sedum alfredii Hance

Phytoremediation is a cost-effective and environment-friendly strategy for decontaminating heavy-metal-contaminated soil. However, the practical use of phytoremediation is constrained by the low biomass of plants and low bioavailability of heavy metals in soil. A pot experiment was conducted to investigate the effects of the metal chelator ethylenediaminetetraacetic acid (EDTA) and EDTA in combination with plant growth-promoting rhizobacteria (Burkholderia sp. D54 or Burkholderia sp. D416) on the growth and metal uptake of the hyperaccumulator Sedum alfredii Hance. According to the results, EDTA application decreased shoot and root biomass by 50% and 43%, respectively. The soil respiration and Cd, Pb, Zn uptake were depressed, while the photosynthetic rate, glutathione and phytochelatin (PC) contents were increased by EDTA application. Interestingly, Burkholderia sp. D54 and Burkholderia sp. D416 inoculation significantly relieved the inhibitory effects of EDTA on plant growth and soil respiration. Compared with the control, EDTA + D416 treatment increased the Cd concentration in shoots and decreased the Pb concentration in shoots and roots, but did not change the Zn concentration in S. alfredii plants. Furthermore, EDTA, EDTA + D54 and EDTA + D416 application increased the cysteine and PC contents in S. alfredii (p < 0.05); among all tested PCs, the most abundant species was PC2, and compared with the control, the PC2 content was increased by 371.0%, 1158.6% and 815.6%, respectively. These results will provide some insights into the practical use of EDTA and PGPR in the phytoremediation of heavy-metal-contaminated soil by S. alfredii.     

窖水中微生物降解污染物的关键细菌

为探究以氮、磷及有机物污染为主要特征的、窖水中参与污染物降解的关键细菌及它们之间潜在的相关关系,基于16S rRNA的微生物组学截面数据,分析了窖水中细菌群落结构与功能及其与水质因子间的相关性,并通过微生物物种的同现或相关种间作用推断模型,构建了7个微生物菌属间的共现性关联网络.结果表明,窖水中存在具有相对特定生态功能的细菌,进行着诸多活跃的与新陈代谢功能基因相关的代谢活动;窖水微生物类群共现性关联网络中大部分节点的菌属营互利共生类型的生态关系;Lacibacter、Arthrobacter、Candidatus Protochlamydia、Methylocaldum、Sulfuritalea、Mycobacterium、Aquirestis、Rhodobacter、Methylotenera等菌属拥有较高的点度中心度;较强的互作关系发生在Sulfuritalea-Rhodobacter、Azospirillum-Rhodobacter、Methylocaldum-Rhodobacter、Arthrobacter-Rhodobacter、Rhodoplanes-Rhodobacter、Candidatus Protochlamydia-Rhodobacter、Methylotenera-Rhodobacter、Rhodobacter-Aquirestis、Mycobacterium-Rhodobacter、PlanctomycesCandidatus Solibacter、Planctomyces-Legionella、Hymenobacter-Adhaeribacter、Luteolibacter-Crenothrix之间.综合分析节点微生物相关性、点度中心度及菌属间的互作强度,认为Rhodobacter、Methylocaldum、Methylotenera、Acinetobacter、Novosphingobium、Planctomyces、Hymenobacter、Luteolibacter为参与窖水污染物微生物降解的关键细菌,Rhodobacter为关键细菌的代表属.研究结果加深了对窖水中污染物微生物降解机制的认识.