内生菌 Pseudomonas putida 促进三叶草生长和重金属吸收：一种有前景的有色金属尾矿原位非土壤覆盖植物修复方法。

Endophyte Pseudomonas putida enhanced Trifolium repens L. growth and heavy metal uptake: A promising in-situ non-soil cover phytoremediation method of nonferrous metallic tailing.

机构信息

School of Energy and Environmental Engineering, University of Science and Technology Beijing, Beijing, 100083, China.

School of Energy and Environmental Engineering, University of Science and Technology Beijing, Beijing, 100083, China; Beijing Key Laboratory on Resource-Oriented Treatment of Industrial Pollutants, Beijing, 100083, China.

出版信息

Chemosphere. 2021 Jun;272:129816. doi: 10.1016/j.chemosphere.2021.129816. Epub 2021 Jan 29.

DOI:10.1016/j.chemosphere.2021.129816

PMID:35534958

Abstract

Non-soil cover phytoremediation is the most promising method for high heavy metal contaminated, pH imbalanced and oligotrophic tailing remediation. In this study, a promising method of tailing non-soil cover phytoremediation by endophyte assisting Trifolium repens L. was established. Endophytic Pseudomonas putida strain RE02, with great heavy metal detoxification ability, could colonize in both rhizosphere and endosphere of roots. With RE02 inoculation, the germination percentage of Trifolium repens L. seeds was improved form 40.33%, 45.33% and 56.67%-60.00%, 57.00% and 73.33% in 20 mg/kg Cd, 20 mg/kg Cr and 100 mg/kg Pb contained tailing. The LC50 (concentrations causing 50% mortality of seedlings) and IC50 (concentrations inhibiting the dry biomass by 50%) of Cd, Cr and Pb increased by 6.62, 4.87, 6.27, 4.28, 22.18 and 22.63 mg/kg respectively. Moreover, RE02 inoculation improved soil fertility that the available P and available K was dramatically enhanced in endophyte inoculated groups. Thus, plant NPK concentration was significantly enhanced by 16.72%, 30.55% and 3.81% respectively, and the total heavy metal uptake by 30.03-574.58%. Taken together, Trifolium repens L. successfully grew and developed in heavy metal contaminated, oligotrophic and pH imbalanced tailing, realizing non-soil cover phytoremediation by RE02 inoculation. Overall, this study provided a feasible and promising method for in-situ non-soil cover phytoremediation of tailing, laying a foundation for ecological restoration of tailing.

摘要

非土壤覆盖植物修复是一种很有前途的方法，可用于修复重金属污染严重、pH 值失衡和贫营养尾矿。本研究建立了一种通过内生菌辅助三叶草（Trifolium repens L.）进行尾矿非土壤覆盖植物修复的有前景的方法。具有很强重金属解毒能力的内生假单胞菌（Pseudomonas putida）菌株 RE02 可以在根的根际和根内定殖。用 RE02 接种后，三叶草种子的发芽率从 40.33%、45.33%和 56.67%-60.00%、57.00%和 73.33%分别提高到 20 mg/kg Cd、20 mg/kg Cr 和 100 mg/kg Pb 含量的尾矿中。Cd、Cr 和 Pb 的 LC50（导致幼苗死亡率为 50%的浓度）和 IC50（抑制干生物量 50%的浓度）分别增加了 6.62、4.87、6.27、4.28、22.18 和 22.63 mg/kg。此外，RE02 接种还改善了土壤肥力，使内生菌接种组的有效磷和有效钾显著增加。因此，植物 NPK 浓度分别显著提高了 16.72%、30.55%和 3.81%，总重金属吸收量提高了 30.03-574.58%。综上所述，三叶草在重金属污染、贫营养和 pH 值失衡的尾矿中成功生长和发育，通过 RE02 接种实现了非土壤覆盖植物修复。总的来说，这项研究为尾矿的原位非土壤覆盖植物修复提供了一种可行且有前景的方法，为尾矿的生态恢复奠定了基础。

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内生菌 Pseudomonas putida 促进三叶草生长和重金属吸收：一种有前景的有色金属尾矿原位非土壤覆盖植物修复方法。

Endophyte Pseudomonas putida enhanced Trifolium repens L. growth and heavy metal uptake: A promising in-situ non-soil cover phytoremediation method of nonferrous metallic tailing.

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