太湖环棱螺牧食活动对苦草生长的影响

2006年9—10月在太湖“863"项目试验基地进行环棱螺(Bellamya sp.)对苦草生长影响的实验研究. 结果表明:经过5周的生长,对照中苦草生物量增加得不多;而各螺处理中苦草生物量的增长非常明显,且与所投放的环棱螺的密度呈正相关关系,放养20,40和80个螺的处理中苦草生物量的增长率分别为对照的4.5,5.3和6.2倍. 另外,环棱螺对苦草根系的影响,表现为各螺处理中苦草根状茎生物量均大于对照,而根须生物量和根须数均小于对照. 与以上现象相反的是,放养20,40和80个螺的处理中苦草表面附着生物的生物量明显低于对照,分别低于对照的33.3%,54.8%和53.7%. 说明螺与沉水植物共存时,对沉水植物生长及繁殖均有一定的促进作用,在浅水湖泊中放养适当密度的环棱螺能在一定程度上加快沉水植被的恢复.      

Arsenite oxidation by <Emphasis Type="Italic">Alcaligenes</Emphasis> sp. strain RS-19 isolated from arsenic-contaminated mines in the Republic of Korea

Arsenite [As(III)]-oxidizing bacteria play important roles in reducing arsenic [As] toxicity and mobility in As-contaminated areas. As-resistant bacteria were isolated from the soils of two abandoned mines in the Republic of Korea. The isolated bacteria showed relatively high resistances to As(III) up to 26 mM. The PCR-based 16S rRNA analysis revealed that the isolated As-resistant bacteria were close relatives to Serratia marcescensa, Pseudomonas putida, Pantoea agglomerans, and Alcaligenes sp. Among the five As-resistant bacterial isolates, Alcaligenes sp. strain RS-19 showed the highest As(III)-oxidizing activity in batch tests, completely oxidizing 1 mM of As(III) to As(V) within 40 h during heterotrophic growth. This study suggests that the indigenous bacteria have evolved to retain the ability to resist toxic As in the As-contaminated environments and moreover to convert the species to a less toxic form [e.g., from As(III) to As(V)] and also contribute the biogeochemical cycling of As by being involved in speciation of As.     

利用鱼粉废水生产微生物絮凝剂的性能研究

假单胞菌(Pseudomonas sp.)GX-4-1可以利用鱼粉废水生产性能良好的微生物絮凝剂PSD-1,低温储存325 d内活性稳定.该絮凝剂具有良好的pH稳定性,对高岭土悬液的絮凝率高达90%以上.在pH=12时,该絮凝剂在沸水中加热30 min后,活性下降不到50%.经有机溶剂提取、冻干后获得的絮凝剂干粉活性回复率高达99.66%.考察了该絮凝剂对土壤悬液和大肠杆菌悬液的净化效果,发现在碱性条件下,以CaCl-2为絮凝助剂时处理效果良好.      

噻吩磺隆降解菌FLX的分离鉴定及降解特性

从生产噻吩磺隆的农药厂内土壤中采取土样,经驯化富集后筛选到1株能高效降解噻吩磺隆的细菌FLX,根据表型特征、生理生化特性及16SrDNA分析,鉴定FLX初步为寡养单胞菌(Stenotrophomonas sp.).FLX能在含50mg/L噻吩磺隆的基础盐液体培养基中降解噻吩磺隆,48h降解率达83.34%.FLX降解噻吩磺隆的最适pH值为7.0,最适温度为35℃,在所试的金属离子中,Zn²⁺、Al³⁺、Cu²⁺、Ba²⁺、Fe_³⁺等对FLX的降解影响较小;Hg²⁺,Co²⁺则抑制FLX的生长与降解.酶的定域实验表明,该菌中噻吩磺隆水解酶为胞内酶.     

应用于矿山修复的高效菌株鉴定与溶岩机制:基于增强回归树分析

岩石矿区废弃地水土流失问题极度严峻,微生物对修复该问题造成的退化生境具有重要意义,为探究微生物对岩石矿区生境修复的有效性与作用机制,采用两次定向筛选,获得1株高效产铁载体及吲哚乙酸(IAA)的硅酸盐矿物分解细菌,利用16S rRNA基因序列分析鉴定该细菌为Pseudomonas protegens.通过该细菌对硅酸盐岩的岩石分解实验,测定培养液pH值,K、Al、Si这3种元素的释放量,检测岩石溶蚀的粒径变化,并分析培养液中不同有机酸,氨基酸及多糖的浓度变化,研究Pseudomonas protegens NLX-4对硅酸盐的溶蚀效果,同时引入增强回归树(boosted regression tree analysis,BRT)分析,探究其促溶机制.分析表明,该细菌通过代谢积累一定浓度的酒石酸(777 mg·L~(-1))以及多糖(8.21 g·L~(-1)),对硅酸盐岩产生释钾、释铝、脱硅的作用,从而有效促进岩石的分解.菌株Pseudomonas protegens NLX-4可作为修复废弃矿地被破坏生境的良好菌种资源.     

Degradation of polycyclic aromatic hydrocarbons by Pseudomonas sp. JM2 isolated from active sewage sludge of chemical plant

It is important to screen strains that can decompose polycyclic aromatic hydrocarbons (PAHs) completely and rapidly with good adaptability for bioremediation in a local area. A bacterial strain JM2, which uses phenanthrene as its sole carbon source, was isolated from the active sewage sludge from a chemical plant in Jilin, China and identified as Pseudomonas based on 16S rDNA gene sequence analysis. Although the optimal growth conditions were determined to be pH 6.0 and 37℃, JM2 showed a broad pH and temperature profile. At pH 4.5 and 9.3, JM2 could degrade more than 40% of fluorene and phenanthrene (50 mg/L each) within 4 days. In addition, when the temperature was as low as 4℃, JM2 could degrade up to 24% fluorene and 12% phenanthrene. This showed the potential for JM2 to be applied in bioremediation over winter or in cold regions. Moreover, a nutrient augmentation study showed that adding formate into media could promote PAH degradation, while the supplement of salicylate had an inhibitive effect. Furthermore, in a metabolic pathway study, salicylate, phthalic acid, and 9-fluorenone were detected during the degradation of fluorene or phenanthrene. In conclusion, Pseudomonas sp. JM2 is a high performance strain in the degradation of fluorene and phenanthrene under extreme pH and temperature conditions. It might be useful in the bioremediation of PAHs.     

游离附生假单胞菌对铜绿微囊蓝细菌中32P释放的影响

采用同位素示踪法，分析游离附生假单胞菌(Pseudomonas sp-)对富集^32P的铜绿微囊蓝细菌(Microcystis aeruginosa)中磷释放的影响．研究结果表明：在微囊蓝细菌生长的延迟期和对数期．游离附生假单胞菌的加入抑制了微囊蓝细菌中^32P的释放，而对蓝细菌的生长没有明显的影响；在微囊蓝细菌生长的稳定期和衰减期，假单胞菌促进其蓝细菌细胞内^32P的释放，同时也加速微囊蓝细菌的衰亡．假单胞菌对微囊蓝细菌^32P释放的促进作用是由于自身的吸磷能力导致的．假单胞菌的吸磷量由假单胞菌生物量和细胞内磷浓度决定，假单胞菌在微囊蓝细菌的整个生长阶段生物量不断增加，而体内^32P浓度在开始阶段很低．直到微囊蓝细菌进入稳定期才达到相对稳定。     

萘降解菌N19-3的分离、鉴定和萘双加氧酶基因的检测

从石油污染土壤中分离到一株高效降解萘的N19-3菌株. 经形态观察、生理生化实验和16S rDNA序列分析等鉴定其为丛毛单胞菌属（Comamonas sp.）. 该菌株能在30 ℃,30h内将1 000mg/L的萘完全降解. 降解萘的适宜温度为20～30 ℃, 适宜pH为7.0～9.0. 0.1mmol/L的Ca2+和Fe3+对N19-3菌株降解萘有较强的促进作用, 0.1 mmol/L的Mn2+和Zn2+对N19-3菌株的生长和萘的降解也有一定的促进作用, 而0.1 mmol/L的 Cu2+则完全抑制了N19-3菌株的生长和萘的降解. 通过PCR方法在N19-3菌株中扩增出分别与C. testosteroni H菌株的萘双加氧酶铁硫蛋白大亚基基因（pahAc）与双加氧酶铁硫蛋白小亚基基因（pahAd）高度同源的核苷酸片断.      

3株溶藻细菌的分离鉴定及其溶藻效应

从武汉市的池塘分离到3株编号分别为M6,M8和M13的溶藻细菌,对这3株细菌的生理生化特性、溶藻专一性和溶藻原因进行了研究.结果表明:M6,M8和M13分别属于葡萄球菌属(Staphylococcus sp.)、芽孢杆菌属(Bacillus sp.)和节杆菌属(Arthrobacter sp.);它们分别能溶解鲍氏织线藻、念珠藻、鱼腥藻、坑形席藻、铜绿微囊藻、鞘丝藻等多种蓝藻,并且它们的液体溶藻现象较固体溶藻现象明显;3株溶藻细菌培养液的过滤液仍有溶藻效应,说明溶藻原因可能是细菌释放某种化学物质所致.      

苯并噻吩脱硫菌株的筛选及脱硫活性研究

从孤岛油田油浸土样中筛选到1株能降解苯并噻吩(BT)的脱硫菌,经初步鉴定该菌为戈登氏菌属(Gordona sp.).实验证明:该菌能以类似于4S途径脱除BT及其衍生物中的硫,但是不能脱除二苯并噻吩(DBT)及其衍生物中的硫.GC-MS分析表明该途径的终产物为邻羟基苯乙醛或其异构体苯并呋喃.在以BT为唯一硫源的培养基中30℃培养48h,Gordona sp.C-6能降解0.15mmol/L的BT,终产物占发酵培养基中BT加入量的50%,其余BT在有氧培养过程中挥发.通过Matlab拟合曲线确定以邻羟基苯乙酸为标准品进行产物定量检测的方法.