耐金属微生物和金属螯合剂协同作用提高龙葵在 Cd 和 Pb 污染土壤中的植物修复效率。

Metal-resistant microorganisms and metal chelators synergistically enhance the phytoremediation efficiency of Solanum nigrum L. in Cd- and Pb-contaminated soil.

机构信息

Key Laboratory of Water Cycle and Related Land Surface Processes, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing, China.

出版信息

Environ Technol. 2012 Jun;33(10-12):1383-9. doi: 10.1080/09593330.2011.629006.

DOI:10.1080/09593330.2011.629006

PMID:22856313

Abstract

The effects of metal-resistant microorganisms and metal chelators on the ability of Solanum nigrum L. to accumulate heavy metals were investigated. In the presence of multiple metal contaminants (Cd and Pb), citric acid (CA) significantly enhanced the biomass and Cd accumulation of S. nigrum, but these conditions decreased the accumulation of Pb. Application of Cd- or Pb-resistant microorganisms improved the ability of S. nigrum to accumulate heavy metals and increased plant yield, but the effects of microorganisms on phytoextraction were smaller than the effects of CA. When plants were grown in the presence of Cd contamination, the co-application of CA and metal-resistant strains enhanced biomass by 30-50% and increased Cd accumulation by 25-35%. However, these conditions decreased Pb accumulation in the presence of Pb pollution. S. nigrum could tolerate a combination of Cd and Pb pollution. In the presence of CA and the metal-resistant microorganisms, the plants were able to acquire 15-25% more Cd and 10-15% more Pb than control plants. We propose that the synergistic combination of plants, microorganisms and chelators can enhance phytoremediation efficiency in the presence of multiple metal contaminants.

摘要

研究了耐金属微生物和金属螯合剂对龙葵积累重金属能力的影响。在多种金属污染物（Cd 和 Pb）存在的情况下，柠檬酸（CA）显著提高了龙葵的生物量和 Cd 积累，但这些条件降低了 Pb 的积累。Cd 或 Pb 抗性微生物的应用提高了龙葵积累重金属的能力和植物产量，但微生物对植物修复的影响小于 CA。当植物在 Cd 污染存在的情况下生长时，CA 和耐金属菌株的共同应用将生物量提高了 30-50%，将 Cd 积累量提高了 25-35%。然而，这些条件在 Pb 污染存在的情况下降低了 Pb 的积累。龙葵可以耐受 Cd 和 Pb 污染的组合。在 CA 和耐金属微生物的存在下，与对照植物相比，植物能够获得 15-25%更多的 Cd 和 10-15%更多的 Pb。我们提出，植物、微生物和螯合剂的协同组合可以提高多种金属污染物存在下的植物修复效率。

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耐金属微生物和金属螯合剂协同作用提高龙葵在 Cd 和 Pb 污染土壤中的植物修复效率。

Metal-resistant microorganisms and metal chelators synergistically enhance the phytoremediation efficiency of Solanum nigrum L. in Cd- and Pb-contaminated soil.

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