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从意大利黑麦草和三叶草中分离出的选定细菌菌株对碳氢化合物的降解和植物定殖。

Hydrocarbon degradation and plant colonization by selected bacterial strains isolated from Italian ryegrass and birdsfoot trefoil.

机构信息

AIT Austrian Institute of Technology GmbH, Bioresources Unit, Seibersdorf, Austria.

出版信息

J Appl Microbiol. 2010 Oct;109(4):1389-401. doi: 10.1111/j.1365-2672.2010.04768.x. Epub 2010 Aug 19.

DOI:10.1111/j.1365-2672.2010.04768.x
PMID:20522148
Abstract

AIMS

To assess the degradation potential and plant colonization capacity of four alkane-degrading strains (ITSI10, ITRI15, ITRH76 and BTRH79) in combination with birdsfoot trefoil and Italian ryegrass and to evaluate the diversity of indigenous alkane-degrading soil bacteria in the rhizo- and endosphere.

METHODS AND RESULTS

Contaminated soil was prepared by spiking agricultural soil with 10 g diesel fuel per kg soil. Italian ryegrass (Lolium multiflorum var. Taurus) and birdsfoot trefoil (Lotus corniculatus var. Leo) were inoculated with four alkane-degrading strains. Hydrocarbon degradation (up to 57%) was observed in all inoculated treatments of vegetated and unvegetated samples. Italian ryegrass in combination with compost and BTRH79 showed highest degradation, while birdsfoot trefoil performed best with compost and strain ITSI10. Cultivation-based as well as cultivation-independent analysis showed that both strains were competitive colonizers.

CONCLUSIONS

The combination between vegetation, inoculation with well-performing degrading bacteria and compost amendment was an efficient approach to reduce hydrocarbon contamination. Two Pantoea sp. strains, ITSI10 and BTRH79, established well in the plant environment despite the presence of a variety of other, indigenous alkane-degrading bacteria.

SIGNIFICANCE AND IMPACT OF THE STUDY

This study suggests that the application of degrading bacterial strains, which are able to compete with the native microflora and to tightly associate with plants, are promising candidates to be used for phytoremediation applications.

摘要

目的

评估 4 种烷烃降解菌(ITSI10、ITRI15、ITRH76 和 BTRH79)与三叶草和黑麦草组合的降解潜力和植物定植能力,并评估根际和内生土壤中土著烷烃降解细菌的多样性。

方法和结果

通过向农业土壤中添加 10 g 柴油/公斤土壤来制备污染土壤。意大利黑麦草(Lolium multiflorum var. Taurus)和三叶草(Lotus corniculatus var. Leo)接种了 4 种烷烃降解菌。在所有接种处理的植被和无植被样本中都观察到了烃类降解(高达 57%)。意大利黑麦草与堆肥和 BTRH79 结合使用表现出最高的降解效果,而三叶草与堆肥和 ITSI10 菌株结合使用效果最佳。基于培养的和非培养的分析表明,两种菌株都是有竞争力的定植者。

结论

植被、具有良好降解性能的细菌接种和堆肥改良的结合是减少烃类污染的有效方法。尽管存在多种其他土著烷烃降解细菌,但 Pantoea sp.菌株 ITSI10 和 BTRH79 仍能在植物环境中良好定植。

意义和影响

这项研究表明,应用能够与土著微生物竞争并与植物紧密结合的降解细菌菌株是用于植物修复应用的有前途的候选物。

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