Cr(Ⅵ)还原菌Microbacterium sp.BD6的分离鉴定及还原特性

【目的】从电镀厂下水道的淤泥中分离筛选Cr(Ⅵ)高效还原菌,并对其生长和还原特性进行研究,以期为Cr(Ⅵ)污染的生物修复提供优质的菌种资源和应用参考。【方法】采用富集培养法从淤泥中分离、筛选出Cr(Ⅵ)还原菌,通过生理生化及16S rRNA基因序列分析进行初步鉴定。采用单因素实验确定菌株的最佳培养条件和抵抗胁迫环境的能力,利用外加电子供体改善菌株的Cr(Ⅵ)还原能力,筛选出最佳电子供体研究对菌株还原的影响。【结果】经分离筛选得到1株Cr(Ⅵ)耐受还原菌,初步鉴定为微杆菌属(Microbacterium sp.),命名为BD6。菌株BD6适宜在中温、偏碱性的环境条件下生长,能耐受50.0 g/L NaCl的高盐环境。Mn^2+对菌种的生长表现出较高的抑制,Ni^2+、Zn^2+、Cd^2+的抑制作用较小,Cu^2)产生了一定的促进作用。Cr(Ⅵ)对BD6的最低抑菌浓度为1700 mg/L。添加甘油、果糖、乳糖、葡萄糖、丙酮酸钠作为电子供体促进了菌株对Cr(Ⅵ)的还原。选择甘油作为菌株还原Cr(Ⅵ)的最佳电子供体,无电子供体添加时菌株96 h内对100 mg/L Cr(Ⅵ)的还原率仅为69.63%,添加2 g/L的甘油菌株在36 h内的还原率达到了100%。通过加大甘油的添加量可以促进菌株对初始浓度较高Cr(Ⅵ)的还原,但要受到Cr(Ⅵ)的毒性限制。菌株的最适还原条件和最适生长条件吻合,在50.0 g/L NaCl的高盐条件和50 mg/L Cd^2+的毒性环境中,添加2 g/L的甘油,菌株对100 mg/L Cr(Ⅵ)的还原率分别为72 h 96.79%、54 h 99.86%。【结论】分离筛选得到的Microbacterium sp.BD6是一株潜在的可用于Cr(Ⅵ)污染生物还原修复的候选菌株。     

Cr(Ⅵ)还原菌Microbacterium sp.BD6的分离鉴定及还原特性

【目的】从电镀厂下水道的淤泥中分离筛选Cr(Ⅵ)高效还原菌,并对其生长和还原特性进行研究,以期为Cr(Ⅵ)污染的生物修复提供优质的菌种资源和应用参考。【方法】采用富集培养法从淤泥中分离、筛选出Cr(Ⅵ)还原菌,通过生理生化及16S rRNA基因序列分析进行初步鉴定。采用单因素实验确定菌株的最佳培养条件和抵抗胁迫环境的能力,利用外加电子供体改善菌株的Cr(Ⅵ)还原能力,筛选出最佳电子供体研究对菌株还原的影响。【结果】经分离筛选得到1株Cr(Ⅵ)耐受还原菌,初步鉴定为微杆菌属(Microbacterium sp.),命名为BD6。菌株BD6适宜在中温、偏碱性的环境条件下生长,能耐受50.0 g/L NaCl的高盐环境。Mn~(2+)对菌种的生长表现出较高的抑制,Ni~(2+)、Zn~(2+)、Cd~(2+)的抑制作用较小,Cu~(2+)产生了一定的促进作用。Cr(Ⅵ)对BD6的最低抑菌浓度为1700 mg/L。添加甘油、果糖、乳糖、葡萄糖、丙酮酸钠作为电子供体促进了菌株对Cr(Ⅵ)的还原。选择甘油作为菌株还原Cr(Ⅵ)的最佳电子供体,无电子供体添加时菌株96 h内对100 mg/L Cr(Ⅵ)的还原率仅为69.63%,添加2 g/L的甘油菌株在36 h内的还原率达到了100%。通过加大甘油的添加量可以促进菌株对初始浓度较高Cr(Ⅵ)的还原,但要受到Cr(Ⅵ)的毒性限制。菌株的最适还原条件和最适生长条件吻合,在50.0 g/L NaCl的高盐条件和50 mg/L Cd~(2+)的毒性环境中,添加2 g/L的甘油,菌株对100 mg/L Cr(Ⅵ)的还原率分别为72 h 96.79%、54 h 99.86%。【结论】分离筛选得到的Microbacterium sp. BD6是一株潜在的可用于Cr(Ⅵ)污染生物还原修复的候选菌株。     

异化铁还原细菌LQ25还原重金属Cr(Ⅵ)的特性研究

【背景】异化铁还原细菌能够在还原Fe(Ⅲ)的同时将毒性较大的Cr(Ⅵ)还原成毒性较小的Cr(Ⅲ),解决铬污染的问题。【目的】基于丁酸梭菌(Clostridiumbutyricum)LQ25异化铁还原过程制备生物磁铁矿,开展异化铁还原细菌还原Cr(Ⅵ)的特性研究。【方法】构建以氢氧化铁为电子受体和葡萄糖为电子供体的异化铁培养体系。菌株LQ25培养结束时制备生物磁铁矿。设置不同初始Cr(Ⅵ)浓度(5、10、15、25和30mg/L),分别测定菌株LQ25对Cr(Ⅵ)还原效率以及生物磁铁矿对Cr(Ⅵ)的还原效率。【结果】菌株LQ25在设置的Cr(Ⅵ)浓度范围内都能良好生长。当Cr(Ⅵ)浓度为15 mg/L时,在异化铁培养条件下,菌株LQ25对Cr(Ⅵ)的还原率为63.45%±5.13%,生物磁铁矿对Cr(Ⅵ)的还原率为87.73%±9.12%,相比菌株还原Cr(Ⅵ)的效率提高38%。pH变化能影响生物磁铁矿对Cr(Ⅵ)的还原率,当pH2.0时,生物磁铁矿对Cr(Ⅵ)的还原率最高,几乎达到100%。电子显微镜观察发现生物磁铁矿表面有许多孔隙,X-射线衍射图谱显示生物磁铁矿中Fe(II)的存在形式是Fe(OH)_2。【结论】基于异化铁还原细菌制备生物磁铁矿可用于还原Cr(Ⅵ),这是一种有效去除Cr(Ⅵ)的途径。     

Cr(VI)还原菌的筛选、鉴定及其还原物质分析

【背景】铬污染土壤是我国土壤污染修复的重点治理对象,在众多修复技术中,微生物法因具有简单、经济、无二次污染等特性已成为研究热点,而微生物法中筛选出既能适应污染场地环境又能高效还原Cr(VI)的菌株尤为重要。【目的】筛选适应西北寒旱区高效还原Cr(VI)的菌株,丰富铬还原菌资源库,为铬污染土壤修复奠定基础。【方法】采用富集驯化、分离纯化法进行筛菌;通过形态学和分子生物学相结合的方法对目的菌株进行鉴定;采用傅里叶变换红外光谱法对还原机理进行研究。【结果】菌株G-13有较强的Cr(VI)还原能力,pH 9.0、温度为30°C条件下,60 h对Cr(VI)(100 mg/L)的还原率达到82.8%。经形态学和分子生物学鉴定,菌株G-13为Micrococcus luteus。反应中Cr(VI)的降低伴随着Cr(III)的增加,说明以还原反应为主,并且还原能力与细菌生长呈依赖型关系。对细胞各组分及变性研究表明,胞外酶在还原反应中占主要作用。除Pd~(2+)、Cd~(2+)外,其余金属离子对酶活性无明显抑制作用。通过傅里叶变换红外光谱分析,发现G-13与Cr(VI)结合位点主要为羟基、羰基、羧基、–CH、酰胺基等。【结论】菌株G-13有较强的Cr(VI)还原能力,能为西北寒旱区铬污染土壤修复丰富菌种资源。     

氨氮和硝酸盐氮对沙雷氏菌S2还原Cr(Ⅵ)能力的影响

【目的】研究氨氮(AN)与硝酸盐氮(NN)对沙雷氏菌S2还原Cr(Ⅵ)能力的影响。【方法】在实验室中模拟常见的环境中氮污染,S2在含Cr(Ⅵ)培养的同时在培养体系中加入不同剂量的AN或/和NN,每隔一定时间测定培养体系的菌量(A600)、Cr(Ⅵ)还原率、AN含量、NN含量。【结果】低、中浓度AN能缓解Cr(Ⅵ)对S2生长的抑制作用;高浓度NN和AN可加快S2的衰亡。AN独立作用时,各组间Cr(Ⅵ)去除率和氨氮含量无显著关联。NN独立作用时,S2的Cr(Ⅵ)去除率在低浓度组降低10.0%以上(P0.05),在高浓度组增高7.1%(P0.05);S2能在4 h内使200 mg/L的NN降至对照组水平。双氮联合作用时,低浓度组对菌株除Cr(Ⅵ)能力的影响与AN单独作用类似,而高浓度组则类似NN单独作用。【结论】AN的存在对S2的Cr(Ⅵ)还原能力无明显影响,NN浓度高低对S2的Cr(Ⅵ)还原能力有不同影响,S2具有很强的除NN能力,可同时去除环境中Cr(Ⅵ)和硝酸盐氮污染。     

驯化对生物阴极微生物燃料电池中阴极微生物群落多样性的影响

【背景】生物阴极微生物燃料电池因其构造成本低和阴极可持续性发展的优点而成为一种很有前途的废水处理系统,但阴极微生物的氧化还原性能限制了其在实际应用中的推广。【目的】为了提高生物阴极的性能,需要深入了解影响阴极氧化还原性能的微生物群落。【方法】利用16S rRNA基因高通量测序技术分析对比原始接种污泥样品和驯化后阴极电极上生物膜样品多样性及结构变化。【结果】测序结果表明,原始接种污泥样品与驯化后阴极电极生物膜样品中微生物群落种类和结构存在显著差异,驯化后阴极电极生物膜样品中变形菌门(Proteobacteria)、γ-变形菌纲(Gammaproteobacteria)和特吕珀菌属(Trueperaceae)相对丰度比例高于原始污泥样品,成为优势菌群。【结论】驯化对系统阴极电极生物膜群落影响显著,随着产电量的输出,优势菌群不断富集,最终形成一个适应该实验环境下的新的微生物群落。对优势菌群结构和变化进行探讨,为生物阴极的研究补充更多生物学方面的理论基础。     

一株耐盐产电菌Shewanella algae E-1的分离及其产电特性分析

【背景】产电微生物的种类和电化学活性机制对微生物燃料电池的产电性能有着重要的影响。【目的】从海水中分离获得一株耐盐产电微生物,研究其产电特性并鉴定种属信息。【方法】以取自南海的海水为接种液启动并运行阳极液中含有不同盐浓度的微生物燃料电池,从富集的阳极生物膜上分离得到一株纯培养的微生物菌株,命名为E-1。通过接种于阳极液中添加不同盐浓度的微生物燃料电池中对其产电特性进行分析,并利用形态学观察、Biolog分析和16SrRNA基因序列比对相结合的方法进行种属鉴定。【结果】菌株E-1在无外源添加和外源添加6.6%NaCl条件下产生的功率密度分别为51.69 m W/m2和26.56 m W/m2,这与其良好的耐盐能力相关。菌株E-1被鉴定为海藻希瓦氏菌(Shewanella algae),表现出多样的底物利用能力,生长的温度范围为25-40°C,pH范围为5.0-10.0。【结论】这是首次对Shewanella algae种内微生物产电性能及其在微生物燃料电池中应用的报道,丰富了产电微生物的多样性,菌株E-1能够在较高盐浓度条件下表现出良好的产电性能,为微生物燃料电池在海水资源化处理方面的应用提供新的实验材料。     

一株兼性氧化亚氮还原菌的还原N2O能力

【目的】从水稻土中分离筛选出一株兼性氧化亚氮还原菌,并探索其在不同条件下还原N_2O的能力,为减少温室气体N_2O的排放提供重要依据。【方法】通过微生物富集培养分离技术从水稻土中分离得到纯菌;利用nosZ基因和16S rRNA的测序分析鉴定菌株;通过测定菌株在不同条件下N_2O的还原量,分析该菌株还原N_2O的能力及调控因子。【结果】经鉴定,该菌株含有nos Z基因,属于假单胞菌属,在温度30°C、厌氧条件下还原N_2O速率高达0.0219μmol/min以上,改变不同温度和氧气浓度后其能力相对减弱,但仍具备较强的还原N_2O作用。【结论】从水稻土中分离筛选得到的兼性氧化亚氮还原菌为假单胞菌,它在不同环境条件下都具备较强的还原N_2O能力,该菌株可能为减少土壤N_2O排放提供新途径,对保障生态环境安全具有重要的应用价值。     

两株高效苯酚降解菌的筛选、鉴定及生物强化-DTRO组合工艺初步验证

【目的】从煤化工废水中分离、筛选苯酚高效降解微生物,初步考察微生物与DTRO技术联用,构建含酚废水生物强化处理工艺的可行性。【方法】采用苯酚浓度梯度培养基对苯酚降解微生物进行分离和筛选;根据菌体形态电子显微镜观察、菌株生理生化特性考察和16S r RNA基因系统发育树构建,对菌株进行初步生物学鉴定;将筛选出的高效苯酚降解菌制备成相应的菌剂与碟管式反渗透(DTRO)技术组合形成"生物强化-DTRO"工艺,并试用于含酚废水的处理。【结果】共获得7株纯化细菌,其中Phe-03和Phe-05为高效苯酚降解菌;该2株菌均可以苯酚为唯一碳源生长。经鉴定Phe-03为壤霉菌属(Agromyces)菌株;Phe-05为棒杆菌属(Corynebacterium)菌株。到目前为止,壤霉菌属(Agromyces)菌株降解苯酚尚未见报道。在初始苯酚浓度达到1 300 mg/L条件下,Phe-03和Phe-05菌株44 h内对苯酚降解率均达到70%以上;76 h后苯酚降解率均超过90%。组合形成的"生物强化-DTRO"工艺不仅可以有效去除废水中的酚类化合物,而且还能减少反渗透膜污染,以及增加膜的通透性。【结论】研究表明微生物技术可与DTRO技术联用,构建含酚废水生物强化处理工艺,可为含酚废水处理技术研究提供一种选择思路。     

蜡样芽孢杆菌CP-1对Cr(Ⅵ)还原效果研究

为了提高蜡样芽孢杆菌CP-1菌株对Cr(Ⅵ)的还原效果,采用单因素和正交试验,通过摇瓶发酵培养,对影响蜡样芽孢杆菌CP-1菌株还原Cr(Ⅵ)的发酵培养基成分和培养条件进行了优化,并研究了最佳发酵条件下的蜡样芽孢杆菌CP-1对Cr(Ⅵ)的还原效果。结果表明,蜡样芽孢杆菌CP-1菌株还原Cr(Ⅵ)的最佳培养基组成为:1%甘露醇, 3%的大豆蛋白胨, 0.05%KCl, 0.1%CuSO4,在此基础上的最佳培养条件为:pH7.0、6%接种量、45℃培养3 d,在此条件下,Cr(Ⅵ)初始浓度为100mg·L^-1时,对Cr(Ⅵ)的还原率达99.75%。在Cr(Ⅵ)污染的土壤中添加蜡样芽孢杆菌CP-190d后,土壤中的Cr(Ⅵ)含量降低55.15%左右。     

In-situ Cr(VI) reduction with electrogenerated hydrogen peroxide driven by iron-reducing bacteria

Cr(VI) was reduced in-situ at a carbon felt cathode in an air-cathode dual-chamber microbial fuel cell (MFC). The reduction of Cr(VI) was proven to be strongly associated with the electrogenerated H₂O₂ at the cathode driven by iron-reducing bacteria. At pH 2.0, only 42.5% of Cr(VI) was reduced after 12 h in the nitrogen-bubbling-cathode MFC, while complete reduction of Cr(VI) was achieved in 4 h in the air-bubbling-cathode MFC in which the reduction of oxygen to H₂O₂ was confirmed. Conditions that affected the efficiency of the reduction of Cr(VI) were evaluated experimentally, including the cathodic electrolyte pH, the type of iron-reducing species, and the addition of redox mediators. The results showed that the efficient reduction of Cr(VI) could be achieved with an air-bubbling-cathode MFC.     

耐盐菌Staphylococcus sp. YZ-1和Bacillus cereus CC-1的Cr(VI)脱毒特性与机理

[背景]高盐含铬废水的去除过程中,Cr(Ⅵ)还原菌是研究者关注的重点,但目前对耐盐菌株的Cr(Ⅵ)脱毒特性及机理的分析仍较少。[目的]比较两株耐盐菌株的Cr(Ⅵ)移除特性,并区分Cr(Ⅵ)耐受机制的差异;通过基因组测序分析,从基因层面推测铬耐受相关基因;构建铬还原菌的混菌体系,考察两者对去除污染物的协同作用。[方法]从青海茶卡盐湖分离耐盐菌Staphylococcus sp.YZ-1,与Bacillus cereus CC-1进行基础特性和Cr(Ⅵ)去除性能的比较,并通过全基因组序列的分析验证特性测试的结果。[结果]两株菌都具有铬移除特性,但CC-1的铬移除效率更高,在初始Cr(Ⅵ)浓度为0.1 mmol/L情况下,CC-1能在12h内移除95.3%的Cr(Ⅵ),而YZ-1只能移除40.1%。在进一步实验中发现YZ-1只能对Cr(Ⅵ)进行还原,将其转化为可溶的有机态Cr(Ⅲ),而CC-1能同时对Cr(Ⅵ)进行还原和吸附。全基因组分析发现YZ-1具有编码外排泵蛋白的基因和编码NAD(P)H氧化还原酶的基因,而CC-1具有编码铬转运蛋白ChrA和细胞色素C氧化还原酶的基因。两株菌的混菌体系在处理含Cr(Ⅵ)、Te(Ⅳ)的废水时,菌群能将还原产物聚集成团并沉淀到底部。[结论]菌株YZ-1和CC-1均为耐盐铬还原菌,但YZ-1中的铬还原酶为诱导型酶,CC-1则为组成型酶。基因组数据分析鉴别出两者可能同时存在多种铬耐受机制相关编码基因。混合菌群可以结合YZ-1的自絮凝特性和两者均有的Te(Ⅳ)/Cr(Ⅵ)还原活性,具有潜在的实用价值。     

Bioremediation of toxic chromium from electroplating effluent by chromate-reducing Pseudomonas aeruginosa A2Chr in two bioreactors

The chromate-reducing ability of Pseudomonas aeruginosa A2Chr was compared in batch culture, with cells entrapped in a dialysis sac, and with cells immobilized in an agarose-alginate film in conjunction with a rotating biological contactor. In all three systems, the maximum Cr(VI) reduction occurred at 10 mg Cr(VI)/l. Whereas at 50 mg Cr(VI)/l concentration, only 16% of the total Cr(VI) was reduced, five spikings with 10 mg chromate/l at 2-h intervals led to 96% reduction of the total input of 50 mg Cr(VI)/l. Thus maximum Cr(VI) reduction was achieved by avoiding Cr(VI) toxicity to the cells by respiking with lower Cr(VI) concentrations. At 10 mg Cr(VI)/l, the pattern of chromate reduction in dialysis-entrapped cells was almost similar to that of batch culture and 86% of the bacterially reduced chromium was retained inside the dialysis sac. In electroplating effluent containing 100 mg Cr(VI)/l, however, the amount of Cr(VI) reduced by the cells immobilized in agarose-alginate biofilm was twice and thrice the amount reduced by batch culture and cells entrapped in a dialysis sac, respectively.     

Diversity of chromium-resistant and -reducing bacteria in a chromium-contaminated activated sludge

AIMS: This study attempts to establish a relationship between the Cr(VI) resistance of the culturable microbial community and the Cr(VI) resistance and Cr(VI)-reducing ability of representative strains of each population, in order to assess whether these are exclusive characteristics of one microbial group or abilities shared among many groups. METHODS AND RESULTS: A group of 48 Cr(VI)-resistant isolates, with different colony types, was isolated from chromium-contaminated activated sludge. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis protein patterns and fatty acid methyl ester analysis identified six populations, representing 54% of the isolated bacteria, as belonging to the genera Acinetobacter and Ochrobactrum. The remaining populations included strains identified as species of the beta-Proteobacteria and high G + C Gram-positive bacteria. The Cr(VI) resistance and reduction ability of the strains were tested. All but two isolates grew in the presence of 1 mmol l(-1) Cr(VI). During enrichment, all isolates were able to survive to 2 mmol l(-1) Cr(VI) and complete Cr(VI) reduction was achieved. Representative strains of each population were able to partially reduce (5.4-39.1%) the Cr(VI) present in the growth medium. CONCLUSIONS: Most of the identified isolates have never been reported to be Cr(VI)-resistant and/or Cr(VI)-reducing strains. The mechanisms of Cr(VI) resistance and reduction may differ from group to group; therefore, it is evident that both Cr(VI) resistance and reduction are shared abilities and not an exclusive characteristic of a single group, possibly reflecting horizontal genetic transfer resulting from selective pressure in this contaminated environment. SIGNIFICANCE AND IMPACT OF THE STUDY: To our knowledge, this is the first study of a microbial community under chronic chromate stress and, as the success of microbial-based metal remediation technologies requires a better understanding of the microbial community and the population response to metal stress, it may contribute to the implementation of a strategy of bioremediation of chromate-contaminated environments.     

Evaluation of in vitro Cr(VI) reduction potential in cytosolic extracts of three indigenous Bacillus sp. isolated from Cr(VI) polluted industrial landfill

Three efficient Cr(VI) reducing bacterial strains were isolated from Cr(VI) polluted landfill and characterized for in vitro Cr(VI) reduction. Phylogenetic analysis using 16S rRNA gene sequencing revealed that the newly isolated strains G1DM20, G1DM22 and G1DM64 were closely related to Bacillus cereus, Bacillus fusiformis and Bacillus sphaericus, respectively. The suspended cultures of all Bacillus sp. exhibited more than 85% reduction of 1000 microM Cr(VI) within 30 h. The suspended culture of Bacillus sp. G1DM22 exhibited an ability for continuous reduction of 100 microM Cr(VI) up to seven consecutive inputs. Assays with the permeabilized cells and cell-free extracts from each of Bacillus sp. demonstrated that the hexavalent chromate reductase activity was mainly associated with the soluble fraction of cells and expressed constitutively. The Cr(VI) reduction by the cell-free extracts of Bacillus sp. G1DM20 and G1DM22 was maximum at 30 degrees C and pH 7 whereas, Bacillus sp. G1DM64 exhibited maximum Cr(VI) reduction at pH 6. Addition of 1mM NADH enhanced the Cr(VI) reductase activity in the cell-free extracts of all three isolates. Amongst all three isolates tested, crude cell-free extracts of Bacillus sp. G1DM22 exhibited the fastest Cr(VI) reduction rate with complete reduction of 100 microM Cr(VI) within 100 min. The apparent K(m) and V(max) of the chromate reductase activity in Bacillus sp. G1DM22 were determined to be 200 microM Cr(VI) and 5.5 micromol/min/mg protein, respectively. The Cr(VI) reductase activity in cell-free extracts of all the isolates was stable in presence of different metal ions tested except Hg(2+) and Ag(+).     

Cathodic reduction of hexavalent chromium [Cr(VI)] coupled with electricity generation in microbial fuel cells

A novel approach to Cr(VI)-contaminated wastewater treatment was investigated using microbial fuel cell technologies in fed-batch mode. By using synthetic Cr(VI)-containing wastewater as catholyte and anaerobic microorganisms as anodic biocatalyst, Cr(VI) at 100 mg/l was completely removed during 150 h (initial pH 2). The maximum power density of 150 mW/m² (0.04 mA/cm²) and the maximum open circuit voltage of 0.91 V were generated with Cr(VI) at 200 mg/l as electron acceptor. This work verifies the possibility of simultaneous electricity production and cathodic Cr(VI) reduction.     

隐藏嗜酸菌Acidiphilium cryptum XTS的Cr(VI)还原特性及相关基因的差异表达

【目的】考察p H值、初始Cr（VI）浓度、Fe（III）的加入及氧气含量对隐藏嗜酸菌Acidiphilium cryptum XTS还原Cr（VI）的影响及其六价铬还原相关基因在不同培养条件下的差异表达。【方法】采用正交试验法L9（34）优选Cr（VI）还原最适条件;根据模式菌A.cryptum JF-5同源功能基因序列设计引物,对菌株XTS中的六价铬还原相关基因Acry₂099在不同培养条件下的基因差异表达进行分析。【结果】p H为2.9,初始Cr（VI）浓度为80 mg/L,Fe（III）浓度为100 mg/L的条件是该菌株还原Cr（VI）的最优化配合比,在该条件下处理24 h,Cr（VI）的还原率达到67.48%;从菌株XTS中成功克隆了Acry₂099基因,其序列与模式菌A.cryptum JF-5的同源功能基因序列一致性达到了99.7%;在不同p H值、初始Cr（VI）浓度及氧气含量下Acry₂099基因表达上调情况与Cr（VI）还原速率呈一致趋势,证明Acry₂099很可能参与还原Cr（VI）的代谢途径。虽然加入Fe（III）能促进Cr（VI）的还原,但是铁的加入对Acry₂099基因表达水平没有显著的影响。【结论】A.cryptum XTS对Cr（VI）的还原与p H值、初始Cr（VI）浓度、Fe（III）的存在等因素有关,较低的p H和较高的初始Cr（VI）浓度对该菌还原Cr（VI）具有促进作用。     

Bacterial Reduction of Cr(VI) and Fe(III) in In Vitro Conditions

ABSTRACT Chemical reduction of Cr(VI) can be a strategy to detoxify toxic metals in oxidized states, whereas reduction of Fe(III) could enhance the availability of Fe in the form of Fe(II) to boost plant growth. However, it creates another problem of chemical sludge disposal. Hence, microbial conversion of Cr(VI) to Cr(III) and Fe(III) to Fe(II) is preferred over the chemical method. Out of 11 bacterial strains isolated from the rhizospheric zone of Typha latifolia growing on fly ash dump sites, four isolates were selected for the reduction of Cr(VI) and Fe(III) and were identified as Micrococcus roseus NBRFT2 (MTCC 9018), Bacillus endophyticus NBRFT4 (MTCC 9021), Paenibacillus macerans NBRFT5 (MTCC 8912), and Bacillus pumilus NBRFT9 (MTCC 8913). These strains were individually tested for survival at different concentrations of Cr(VI) and Fe(III), pH, and temperature, and then, their ability for reduction of both metals was evaluated at optimum pH 8.0 and temperature 35°C. The results indicated that NBRFT5 was able to reduce the maximum amount, 99% Cr(VI) and 98% Fe(III). Other strains also reduced these metals to different levels, but less than NBRFT5. Hence, these strains may be used for decontamination of metal-contaminated sites, particularly with Cr(VI) and Fe(III) through the reduction process.     

Detoxification and accumulation of chromium from tannery effluent and spent chrome effluent by Paecilomyces lilacinus fungi

The tannery industry process involves chromium (Cr) salts as a main constituent of the process. The Cr recovery is a part of the process where other salts are used to achieve separation and recovery for using Cr back in the process. The process steps may contain both forms of Cr [Cr(VI): hexavalent and Cr(III): trivalent]. The recovery of Cr from tannery industry effluent through biological systems is much needed. The diverse physicochemical characteristics of these effluents may limit the growth of microorganisms and hence the limitation towards possible practical application of microorganisms in real industrial effluent conditions. The present study attempted the ability of the Cr-resistant fungus Paecilomyces lilacinus [isolated through an enrichment culture technique at 25 000 mg l⁻¹ of Cr(III)] to grow and remove Cr [Cr(VI) and Cr(III)] from two physicochemically different undiluted tannery industry effluents (tannery effluent and spent chrome effluent) in the presence of cane sugar as a carbon source. Such attempts are made keeping in view the potential integration of biological processes in the overall Cr removal and recovery processes to improve its efficiency and environmental sustainability. The fungus has broad pH tolerance range and can reduce Cr(VI) both in acidic (pH 5.5) and alkaline (pH 8.0) conditions. The fungus showed the ability to remove Cr(VI) (1.24 mg l⁻¹) and total Cr (7.91 mg l⁻¹) from tannery effluent below the detection level within 18 h and 36 h of incubation, respectively, and ability to accumulate 189.13 mg Cr g⁻¹ of dry biomass within 600 h of incubation from spent chrome effluent [containing 3731.4 mg l⁻¹ of initial Cr(III) concentration].At 200 mg l⁻¹ of Cr(VI) in growth media, with 100% detoxification and with only 10.54% of total Cr accumulation in the biomass, P. lilacinus showed Cr(VI) reduction as a major mechanism of Cr(VI) detoxification. The time-course study revealed the log phase of the growth for the maximum specific reduction of Cr(VI) and stationary phase of the growth for its maximum specific accumulation of both the forms of Cr [Cr(III) and Cr(VI)] in its biomass. In growth media at 50 mg l⁻¹ and 200 mg l⁻¹ of Cr(VI), P. lilacinus showed 100% reduction within 36 h and 120 h of incubation, respectively. The high degree of positive correlation and statistically high degree of relationship (r² = 0.941) between the fungal growth and % Cr(VI) reduction by the fungus support the role of metabolically active cellular growth in Cr(VI) reduction by the fungus. Results indicate that expanded solid (sludge) retention times (SRTs) (stationary phase) can be recommended for the removal of Cr(III) through accumulation. In case of Cr(VI), reduction needs a priority; therefore, a non-expanded SRT is recommended for designing a continuous-flow completely stirred bioreactor so that a log phase of cellular growth can be maintained during the reduction process. This study reveals the strong potential of P. lilacinus fungi for the removal of Cr from tannery effluent and spent chrome effluent.