luxAB基因标记甲基对硫磷降解菌DLL-1在土壤和植株根部的生态行为研究

发光酶标记是 1种有效的跟踪微生物在生态环境中动态行为的技术手段。采用luxAB基因标记技术对甲基对硫磷降解菌DLL - 1在土壤中的分布和植株内的定殖情况进行了研究。结果表明 ,DLL - 1可以较长时间的在植株根际定殖 ,3 0d后仍可用X -感光片检测到菌体的存在 ,而根际外未检测到DLL - 1。植株根剖开后在培养基上培养 2 4h后进行X -光片曝光 ,发现DLL - 1能够进入植株根内并定殖。菌株回收后采用测定其农药降解活力和检查质粒图谱 2种方法证实 ,所观测的回收菌株就是接种的DLL - 1菌株     

海洋苯酚降解菌Candida sp.P5的分离鉴定及其降解特性

从海洋沉积物中分离、筛选到一株能以苯酚作为唯一碳源和能源的酵母菌P5．根据菌落特征、菌体形态、生理生化特性和18SrDNA序列分析，确定菌株P5为假丝酵母菌属（Candicla　sp．）．该菌株最适宜生长和降解苯酚的条件为：温度25℃，pH6．0～7．0，摇床转速100r／min，需氧；菌株P5能在较高浓度的苯酚条件下生长，在72h内可以降解95％以上的苯酚．对苯酚代谢途径和相关酶的研究发现，菌株P5主要在邻苯二酚1，2-双加氧酶作用下通过邻位途径进行苯酚代谢．图7表2参24     

三氯生对青海弧菌Q67和人乳腺癌细胞MCF-7的时间毒性

三氯生(triclosan,TCS)是一种广谱性抗菌剂,2005年欧盟水框架指令将TCS列为一种新型污染物。目前对TCS的研究局限于急性毒性实验,关于TCS毒性随时间的变化以及不同溶解状态下TCS的毒性差异的研究却鲜有报道。应用以96孔微板为暴露反应载体的微板毒性分析法,添加氢氧化钠(NaOH)或使用二甲亚砜(DMSO)作为助溶剂溶解TCS,分别测定其对青海弧菌Q67的相对发光抑制毒性(15min急性毒性和时间毒性)和对人乳腺癌细胞MCF-7在不同暴露时间(24、48和72h)内的细胞增殖抑制毒性。Q67的急性毒性实验结果表明,碱性条件下TCS的毒性(EC50=3.97(10-8mol.L-1)大于DMSO作为助溶剂时的毒性(EC50=1.68(10-4mol.L-1)。无论碱性条件还是DMSO助溶,TCS在不同暴露时间内对Q67的时间毒性没有明显差异。在不同暴露时间下MCF-7增殖抑制率实验中,DMSO作为助溶剂时,TCS的最高实验浓度为1.46(10-3mol.L-1,随着暴露时间的延长,抑制率在24、48和72h时分别为27.8%、44.2%和62.4%;碱性环境时TCS的最高实验浓度为1.39(10-6mol.L-1,随着暴露时间的延长,抑制率在24、48和72h时分别为20.2%、55.8%和73.9%。研究表明,在DMSO和NaOH作为助溶剂的条件下,TCS对MCF-7均存在时间毒性差异,并且NaOH碱性溶液中TCS对MCF-7的毒性远大于DMSO作为助溶剂时的毒性。     

伯克氏菌对水稻种子萌发及初生幼苗耐镉性的影响

在无菌条件下研究了伯克氏菌对镉胁迫下水稻种子萌发及初生幼苗耐镉性的影响。结果表明：伯克氏菌D54能在含500mg·L^-1Cd的培养基中正常生长,显示出极强的耐镉能力。在50 mg·L^-1的镉胁迫下,接种伯克氏菌能显著提高水稻种子的萌发率,但在其他镉处理下,接种伯克氏菌对种子萌发无显著影响。接种伯克氏菌对水稻种子的发芽指数没有影响,但在10 mg·L^-1Cd处理下,接种伯克氏菌能显著提高水稻种子的活力指数和初生幼苗的根长、根表面积、根尖总数和耐性系数。接种伯克氏菌对初生幼苗的芽鲜重无影响,但能显著提高根鲜重。在50 mg·L^-1和100 mg·L^-1的高浓度镉处理下,接种伯克氏菌对根系生长没有影响。     

Antimony transformation and mobilization from stibnite by an antimonite oxidizing bacterium Bosea sp. AS-1

Soils and waters are heavily contaminated by antimony in Xikuangshan（XKS） mine area.It is widely accepted that oxidative dissolution of sulfide minerals and aqueous dissolution are the most prevalent geochemical mechanisms for the release of Sb to the environment.Bosea sp. AS-1 is an antimonite-oxidizer isolated from the mine slag in Xikuangshan Sb mine. Whole genome sequencing revealed the presence of multiple sulfur-oxidizing genes,antimony（Sb） metabolism genes and carbon fixation genes in AS-...     

悬沙对小球藻生长的影响

在实验生态条件下研究了不同浓度和粒径大小的悬沙对小球藻(Chlorella sp.)生长的影响.结果发现:在泥沙与小球藻直接混合培养体系中,小球藻的种群增长可用Logistic增长模型拟合,拟合后的生长参数表明,随着悬沙浓度的增加,小球藻的环境负载能力a和种群瞬时增长率K显著减小,但到达拐点时间Tp的变化趋势在不同悬沙粒径组中存在差异.结果对于利用泥沙条件抑制水华爆发有着重要的意义.     

Experimental investigation of energy properties for Stigonematales sp. microalgae as potential biofuel feedstock

Microalgae has been considered potential biofuel source from the last decade owing to its versatile perspectives such as excellent capability of CO₂ capture and sequestration, water treatment, prolific growth rate and enormous energy content. Thus, energy research on microalgae is being harnessed to mitigate CO₂ and meet future energy demands. This study investigated the bioenergy potential of native blue-green microalgae consortium as initial energy research on microalgae in Brunei Darussalam. The local species of microalgae were assembled from rainwater drains, the species were identified as Stigonematales sp. and physical properties were characterised. Sundried biomass with moisture content ranging from 6.5% to 7.37% was measured to be used to determine the net and gross calorific value and they were 7.98 MJ/kg-8.57 MJ/kg and 8.70 MJ/kg-9.45 MJ/kg, respectively. Besides that, the hydrogen content, ash content, volatile matter, and bulk density were also experimented and they were 2.56%-3.15%, 43.6%-36.71%, 57–38%-63.29% and 661.2 kg/m³-673.07 kg/m³, respectively. Apart from experimental values, other physical bioenergy parameters were simulated and they were biomass characteristic index 61,822.29 kg/m³-62,341.3 kg/m³, energy density 5.27 GJ/m³-5.76G J/m³ and fuel value index 86.19–88.54. With these experimental results, microalgae manifested itself a potential source of biofuel feedstock for heat and electricity generation, a key tool to bring down the escalated atmospheric greenhouse gases and an alternation for fossil fuel.     

Effect of surfactant on phenanthrene metabolic kinetics by Citrobacter sp. SA01

To attain a better understanding of the effects of surfactants on the metabolic kinetics of hydrophobic organic compounds, the biodegradation of phenanthrene by Citrobacter sp. SA01 was investigated in a batch experiment containing Tween 80, sodium dodecyl benzene sulfonate and liquid mineral salt medium. The Monod model was modified to effectively describe the partition, phenanthrene biodegradation and biopolymer production. The results showed that Tween 80 and sodium dodecyl benzene sulfonate （each at 50 rag/L） enhanced phenanthrene metabolism and poly-β-hydroxybutyrate production as indicated by the increasing amounts of intermediates Coy 17.2% to 47.9%）, and percentages of poly-β- hydroxybutyrate （by 107.3% and 33.1%） within the cell dry weight when compared to their absence. The modified Monod model was capable of predicting microbial growth, phenanthrene depletion and biopolymer production. Furthermore, the Monod kinetic coefficients were largely determined by the surfactant-enhanced partition, suggesting that partitioning is a critical process in surfactant-enhanced bioremediation of hydro- phobic organic compounds.     

四溴双酚A好氧降解菌的筛选及其降解特性研究

为了解四溴双酚A(TBBPA)的微生物降解特性,采用TBBPA为单一碳源的选择性培养基从苯酚降解颗粒污泥中筛选出4株对TBBPA具有良好降解性的好氧菌株,其中菌株H经16S rDNA测序鉴定为红球菌属.正交试验得出其最优降解条件为:温度30℃,摇床转速150 r.min-1,pH 6.5,腐殖酸浓度200 mg·L-1,K+浓度1 000 mg·L-1;此条件下21 d降解脱溴率达20.75%.LC-MS结果表明,TBBPA好氧降解的主要产物是分子中异丙基与苯环断裂后脱溴产生的一溴苯酚.聚丙烯酰胺蛋白凝胶电泳(SDS-PAGE)结果表明,该菌株H的蛋白系列中含有一条介于(90～117)×103间的条带,对比同期考察的葡萄糖培养与TBBPA无机盐溶液培养菌,结合粗酶液的降解实验,该蛋白可能是受TBBPA激活的特异性降解酶.     

不同载体材料固定化Fusarium. sp修复老化污染土壤中HMW-PAHs的研究

本研究选用玉米、黄瓜和番茄秸秆作为载体材料,固定化PAHs高效降解菌ZH-H_2(Fusarium.sp),通过土壤培养试验对煤矿区农田高环多环芳烃(HMW-PAHs)污染老化土壤进行修复研究.结果表明,土壤培养60 d后,3种材料固定化ZH-H_2处理(Y+B,H+B,X+B)对10种HMW-PAHs总量均有一定的修复效果,其降解率分别为21.65%、16.10%和15.49%,且Y+B处理的修复效果高于其他两种材料处理(p0.05);3种载体材料固定化ZH-H_2对土壤HMW-PAHs不同环数的降解存在一定的差异,其对6环PAHs的修复效果均优于4环和5环;3种材料固定化ZH-H_2对Flt、Pyr、Ba A、Chry、Bb F、Ba P 6种单体的降解也存在明显的不同.对Flt、Pyr、Ba A、Chry、Bb F、Ba P的修复效果表现为Y+B处理显著高于H+B和X+B处理,且Y+B处理中尤其对Bb F(24.20%)、In P(24.24%)的修复效果表现突出;对Bghi P单体的修复效果表现为X+B处理显著高于Y+B和H+B,高达30.95%;3种处理对Bk F、Db A和In P 3种PAHs单体的修复效果无差异显著性.进一步分析与HMW-PAHs降解有关的土壤酶活性发现,土壤木质素过氧化物酶和过氧化氢酶活性在3种秸秆材料处理下呈现了较为相似的规律,均表现为Y+B处理下最高,与固定化ZH-H_2对Flt、Pyr、Ba A、Chry、Bb F、Ba P 6种单体PAHs的修复效果规律相一致;而对于多酚氧化酶活性却呈现了相反的规律,表现为Y+B处理下最低的变化特征.综上,对于煤矿区农田污染老化土壤中10种PAHs总量的修复以玉米秸秆作为菌株ZH-H_2的固定化载体材料最为适宜.