Water conditions and arbuscular mycorrhizal symbiosis affect the phytoremediation of petroleum-contaminated soil by Phragmites australis

Yibo Wu, Zhibao Cheng, Chengwei Wu, Hongkai Zhao, Peng Bao, Xiaoyong Cui
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Abstract

Phytoremediation of petroleum-contaminated soils using the synergistic functions of plants and rhizosphere microorganisms is a promising technology. However, successfully applying this approach presents challenges under certain conditions (submerged environments). This study analyzed the potential role of Phragmites australis in symbiosis with arbuscular mycorrhizal (AM) fungi during petroleum remediation at two water levels. AM inoculation promoted P. australis aboveground growth under non-flooded conditions, whereas flooding significantly increased P. australis biomass. The highest total petroleum hydrocarbon (TPH) degradation efficiency was observed in non-flooded soils, whereas submergence severely inhibited TPHs dissipation. Plants with AM inoculation treatments substantially enhanced the removal of TPHs under flooded conditions. TPH removal was positively correlated with dehydrogenase activity but negatively correlated with easily extracted glomalin-related soil proteins. Moreover, different petroleum-hydrocarbon-decaying candidates contributed to TPH removal in these two cultured soils. These findings provide valuable information for the remediation of future TPH-contaminated soils, especially applied in intermittently submerged environments.

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水分条件和丛枝菌根共生关系对芦苇修复石油污染土壤的影响
利用植物与根际微生物的协同作用修复石油污染土壤是一项很有前途的技术。然而,在某些条件下(水下环境),成功应用这种方法存在挑战。本研究分析了芦苇与丛枝菌根(AM)真菌在石油修复过程中共生的潜在作用。在不淹水条件下,接种AM促进了南菖蒲地上部生长,而淹水条件下则显著增加了南菖蒲生物量。未淹水土壤中总石油烃(TPH)的降解效率最高,而淹没严重抑制了TPH的耗散。接种AM处理的植株在淹水条件下显著增强了TPHs的去除。TPH去除率与脱氢酶活性呈正相关,而与易提取的球囊素相关土壤蛋白呈负相关。此外,不同的候选石油烃对两种培养土壤中TPH的去除也有贡献。这些发现为今后修复tph污染土壤提供了有价值的信息,特别是在间歇性淹没环境中。
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