Departamento de Biología Molecular, FCEFQN, Universidad Nacional de Río Cuarto, Ruta 36 Km 601, 5800, Río Cuarto, Córdoba, Argentina.
Environ Sci Pollut Res Int. 2013 Mar;20(3):1310-7. doi: 10.1007/s11356-012-1173-9. Epub 2012 Sep 9.
Phenolic compounds are contaminants frequently found in water and soils. In the last years, some technologies such as phytoremediation have emerged to remediate contaminated sites. Plants alone are unable to completely degrade some pollutants; therefore, their association with rhizospheric bacteria has been proposed to increase phytoremediation potential, an approach called rhizoremediation. In this work, the ability of two rhizobacteria, Burkholderia kururiensis KP 23 and Agrobacterium rhizogenes LBA 9402, to tolerate and degrade phenolic compounds was evaluated. Both microorganisms were capable of tolerating high concentrations of phenol, 2,4-dichlorophenol (2,4-DCP), guaiacol, or pentachlorophenol (PCP), and degrading different concentrations of phenol and 2,4-DCP. Association of these bacterial strains with B. napus hairy roots, as model plant system, showed that the presence of both rhizospheric microorganisms, along with B. napus hairy roots, enhanced phenol degradation compared to B. napus hairy roots alone. These findings are interesting for future applications of these strains in phenol rhizoremediation processes, with whole plants, providing an efficient, economic, and sustainable remediation technology.
酚类化合物是经常在水和土壤中发现的污染物。在过去的几年中,一些技术如植物修复已经出现,以修复污染的场地。植物本身无法完全降解一些污染物;因此,已经提出将其与根际细菌联合使用,以增加植物修复的潜力,这种方法称为根际修复。在这项工作中,评估了两种根际细菌,B. kururiensis KP 23 和 A. rhizogenes LBA 9402 ,对酚类化合物的耐受和降解能力。这两种微生物都能够耐受高浓度的苯酚、2,4-二氯苯酚(2,4-DCP)、愈创木酚或五氯苯酚(PCP),并降解不同浓度的苯酚和 2,4-DCP。这些细菌菌株与 B. napus 毛状根的联合,作为模型植物系统,表明两种根际微生物的存在,连同 B. napus 毛状根一起,与单独的 B. napus 毛状根相比,增强了苯酚的降解。这些发现对于这些菌株在苯酚根际修复过程中的未来应用很有趣,使用整个植物提供了一种高效、经济和可持续的修复技术。
