羽扇豆与强化根际环境相结合对多环芳烃的修复潜力：一项全尺寸中宇宙实验。

The remediation potential for PAHs of L. combined with an enhanced rhizosphere landscape: A full-scale mesocosm experiment.

作者信息

Zuzolo Daniela, Sciarrillo Rosaria, Postiglione Alessia, Guarino Carmine

机构信息

Department of Science and Technology, University of Sannio, via de Sanctis, Benevento 82100, Italy.

出版信息

Biotechnol Rep (Amst). 2021 Jun 27;31:e00657. doi: 10.1016/j.btre.2021.e00657. eCollection 2021 Sep.

DOI:10.1016/j.btre.2021.e00657

PMID:34277366

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8264111/

Abstract

A full-scale mesocosm study was conducted to depict how integrated biological systems interact to adapt to contaminant stress and improve remediation of polycyclic aromatic hydrocarbons (PAHs)contaminated soils. The combination of L. and microbial consortium (fungi and bacteria) was employed along with three differently contaminated soils. After 240 days the highest PAHs removal (up to 68 %) and 6-rings compounds decrease was found in soil with lower pollution and cation exchange capacity. showed a significant adaptability over time in terms of redox biology. Soil enzyme activities and microscopic evidences proved a rising plant-microorganisms association and a successful mycorrhization, arising from the inoculation of our consortia. In addition, an enhanced richness of PAHs degrading genes was achieved. Microbial co-metabolism, helped by the establishment of complex relationships with hosting plant, demonstrated to be suitable for the degradation of high molecular weight PAHs and represents a biotechnology with great prospects.

摘要

进行了一项全面的中宇宙研究，以描述综合生物系统如何相互作用以适应污染物胁迫并改善多环芳烃（PAHs）污染土壤的修复。将L.与微生物群落（真菌和细菌）结合使用，并搭配三种不同污染程度的土壤。240天后，在污染程度较低且阳离子交换容量较低的土壤中，PAHs去除率最高（高达68%），六环化合物减少。在氧化还原生物学方面，随着时间的推移显示出显著的适应性。土壤酶活性和微观证据证明，由于接种了我们的群落，植物-微生物关联增加，菌根形成成功。此外，PAHs降解基因的丰富度得到提高。微生物共代谢在与宿主植物建立复杂关系的帮助下，被证明适用于高分子量PAHs的降解，是一种具有广阔前景的生物技术。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73ee/8264111/a44d688363f6/fx1.jpg

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羽扇豆与强化根际环境相结合对多环芳烃的修复潜力：一项全尺寸中宇宙实验。

The remediation potential for PAHs of L. combined with an enhanced rhizosphere landscape: A full-scale mesocosm experiment.

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