Linking Toluene Degradation with Specific Microbial Populations in Soil

Jessica R. Hanson; Jennifer L. Macalady; David Harris; Kate M. Scow

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Linking Toluene Degradation with Specific Microbial Populations in Soil

机译：将甲苯降解与土壤中特定微生物种群联系起来

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Phospholipid fatty acid (PLFA) analysis of a soil microbial community was coupled with 13C isotope tracer analysis to measure the community’s response to addition of 35 μg of [13C]toluene ml of soil solution?1. After 119 h of incubation with toluene, 96% of the incorporated13C was detected in only 16 of the total 59 PLFAs (27%) extracted from the soil. Of the total 13C-enriched PLFAs, 85% were identical to the PLFAs contained in a toluene-metabolizing bacterium isolated from the same soil. In contrast, the majority of the soil PLFAs (91%) became labeled when the same soil was incubated with [13C]glucose. Our study showed that coupling13C tracer analysis with PLFA analysis is an effective technique for distinguishing a specific microbial population involved in metabolism of a labeled substrate in complex environments such as soil.

机译：对土壤微生物群落的磷脂脂肪酸（PLFA）分析与13C同位素示踪分析相结合，以测量该群落对添加35μg[13C]甲苯毫升土壤溶液的反应[1]。与甲苯孵育119小时后，从土壤中提取的59种PLFA中只有16种（27％）中检测到96％的掺入13C。在全部富含13C的PLFA中，有85％与从同一土壤中分离的甲苯代谢细菌中所含的PLFA相同。相反，当同一土壤与[13C]葡萄糖孵育时，大多数土壤PLFA（91％）被标记。我们的研究表明，结合13C示踪剂分析和PLFA分析是一种有效的技术，可用于区分复杂环境（例如土壤）中与标记底物代谢有关的特定微生物种群。

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《Applied and Environmental Microbiology》 |1999年第12期|共6页
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Jessica R. Hanson; Jennifer L. Macalady; David Harris; Kate M. Scow;
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1. Use of isotopic and molecular techniques to link toluene degradation in denitrifying aquifer microcosms to specific microbial populations [J] . Pelz O., Andersen N., Bernasconi SM., Archives of microbiology . 2001,第4期

机译：使用同位素和分子技术将反硝化含水层微观世界中的甲苯降解与特定微生物种群联系起来
2. Effect of trichloroethylene (TCE) and toluene concentrations on TCE and toluene biodegradation and the population density of TCE and toluene degraders in soil. [J] . D Y Mu, K M Scow Applied and Environmental Microbiology . 1994,第7期

机译：三氯乙烯（TCE）和甲苯浓度对土壤中三氯乙烯和甲苯生物降解以及三氯乙烯和甲苯降解剂的种群密度的影响。
3. Successful genetic bioaugmentation with Pseudomonas putida for toluene degradation in soil columns Engineering in situ microbial adaptation: a case study for genetic bioaugmentation in soil columns [J] . Kaoru Ikuma, Claudia K. Gunsch Environmental chemistry letters . 2013,第4期

机译：恶臭假单胞菌成功实现了土壤柱中甲苯降解的遗传生物增强工程原位微生物适应性：土壤柱中遗传生物增强的案例研究
4. EFFECT OF DISTILLERY EFFLUENT ON CHANGES IN SOIL PROPERTIES, MICROBIAL POPULATION, YIELD AND QUALITY OF SUGARCANE IN SANDY SOILS [C] . H. Gopal, C. Kayalvizhi, M. Baskar, Annual convention of the Sugar Technologists' Association of India;Convention of the Sugar Technologists' Association of India . 2001

机译：蒸馏水对砂质土壤中蔗糖土壤性质，微生物种群，产量和品质变化的影响
5. Linking microbial populations and geochemical processes in soils, mine tailings, and geothermal environments. [D] . Macur, Richard Eugene. 2004

机译：将土壤，矿山尾矿和地热环境中的微生物种群与地球化学过程联系起来。
6. Linking Toluene Degradation with Specific Microbial Populations in Soil [O] . Jessica R. Hanson, Jennifer L. Macalady, David Harris, 1999

机译：将甲苯降解与土壤中特定微生物种群联系起来
7. Composition of Toluene-Degrading Microbial Communities from Soil at Different Concentrations of Toluene [O] . Casey Hubert, Yin Shen, Gerrit Voordouw 1999

机译：不同浓度甲苯的土壤中甲苯降解微生物群落的组成
8. Microbial Degradation of Toluene under Sulfate-Reducing Conditions and theInfluence of Iron on the Process [R] . Beller, H. R., Grbic-Galic, D., Reinhard, M. 1992

机译：硫酸盐还原条件下甲苯的微生物降解及铁对工艺的影响

Linking Toluene Degradation with Specific Microbial Populations in Soil

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