解磷菌 Pseudomonas sp. LA 联合黑麦草（Lolium perenne L.）和苦苣菜（Sonchus oleraceus L.）对磷矿区废弃地土壤中铅生物有效性的增强还原作用。

Enhanced reduction of lead bioavailability in phosphate mining wasteland soil by a phosphate-solubilizing strain of Pseudomonas sp., LA, coupled with ryegrass (Lolium perenne L.) and sonchus (Sonchus oleraceus L.).

机构信息

Key Laboratory for Green Chemical Process of Ministry of Education, School of Environmental Ecology and Biological Engineering, Wuhan Institute of Technology, Wuhan, 430205, PR China.

出版信息

Environ Pollut. 2021 Apr 1;274:116572. doi: 10.1016/j.envpol.2021.116572. Epub 2021 Jan 27.

DOI:10.1016/j.envpol.2021.116572

PMID:33529904

Abstract

Due to ecologically unsustainable mining strategies, there remain large areas of phosphate mining wasteland contaminated with accumulated lead (Pb). In this study, a Pb-resistant phosphate-solubilizing strain of Pseudomonas sp., LA, isolated from phosphate mining wasteland, was coupled with two species of native plants, ryegrass (Lolium perenne L.) and sonchus (Sonchus oleraceus L.), for use in enhancing the reduction of bioavailable Pb in soil from a phosphate mining wasteland. The effect of PbCO solubilization by Pseudomonas sp. strain LA was evaluated in solution culture. It was found that strain LA could attain the best solubilization effect on insoluble Pb when the PbCO concentration was 1% (w/v). Pot experiments were carried out to investigate the potential of remediation by ryegrass and sonchus in phosphate mining wastelands with phosphate rock application and phosphate-solubilizing bacteria inoculation. Compared to the control group without strain LA inoculation, the biomass and length of ryegrass and sonchus were markedly increased, available P and Pb in roots increased by 22.2%-325% and 23.3%-368%, respectively, and available P and Pb in above-ground parts increased by 4.44%-388% and 1.67%-303%, respectively, whereas available Pb in soil decreased by 14.1%-27.3%. These results suggest that the combination of strain LA and plants is a bioremediation strategy with considerable potential and could help solve the Pb-contamination problem in phosphate mining wastelands.

摘要

由于生态上不可持续的采矿策略，仍有大片的磷矿开采荒地受到累积铅（Pb）的污染。在这项研究中，从磷矿开采废地中分离出的耐铅解磷假单胞菌（Pseudomonas sp.）LA 与两种本地植物黑麦草（Lolium perenne L.）和苦苣菜（Sonchus oleraceus L.）相耦合，用于增强从磷矿开采废地土壤中还原生物可利用 Pb 的能力。在溶液培养中评估了 Pseudomonas sp. 菌株 LA 对 PbCO 的溶解作用。结果发现，当 PbCO 浓度为 1%（w/v）时，菌株 LA 对不溶性 Pb 具有最佳的溶解效果。进行了盆栽实验，以研究在添加磷矿和接种解磷菌的情况下，黑麦草和苦苣菜对磷矿开采荒地的修复潜力。与未接种 LA 菌株的对照组相比，黑麦草和苦苣菜的生物量和长度明显增加，根中有效 P 和 Pb 分别增加了 22.2%-325%和 23.3%-368%，地上部分有效 P 和 Pb 分别增加了 4.44%-388%和 1.67%-303%，而土壤中有效 Pb 减少了 14.1%-27.3%。这些结果表明，LA 菌株与植物的组合是一种具有相当潜力的生物修复策略，有助于解决磷矿开采废地中的 Pb 污染问题。

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解磷菌 Pseudomonas sp. LA 联合黑麦草（Lolium perenne L.）和苦苣菜（Sonchus oleraceus L.）对磷矿区废弃地土壤中铅生物有效性的增强还原作用。

Enhanced reduction of lead bioavailability in phosphate mining wasteland soil by a phosphate-solubilizing strain of Pseudomonas sp., LA, coupled with ryegrass (Lolium perenne L.) and sonchus (Sonchus oleraceus L.).

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