Persistent polycyclic aromatic hydrocarbons removal from sewage sludge-amended soil through phytoremediation combined with solid-state ligninolytic fungal cultures

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-30 DOI:10.1016/j.funbio.2024.01.007
Abraham Demelash Chane , Zdeněk Košnář , Tereza Hřebečková , Miroslav Jozífek , Petr Doležal , Pavel Tlustoš
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Abstract

Polycyclic aromatic hydrocarbons (PAHs) are widely present in the environment, causing increasing concern because of their impact on soil health, food safety and potential health risks. Four bioremediation strategies were examined to assess the dissipation of PAHs in agricultural soil amended with sewage sludge over a period of 120 days: soil-sludge natural attenuation (SS); phytoremediation using maize (Zea mays L.) (PSS); mycoremediation (MR) separately using three white-rot fungi (Pleurotus ostreatus, Phanerochaete chrysosporium and Irpex lacteus); and plant-assisted mycoremediation (PMR) using a combination of maize and fungi. In the time frame of the experiment, mycoremediation using P. chrysosporium (MR-PH) exhibited a significantly higher (P < 0.05) degradation of total PAHs compared to the SS and PSS treatments, achieving a degradation rate of 52 %. Both the SS and PSS treatments demonstrated a lower degradation rate of total PAHs, with removal rates of 18 % and 32 %, respectively. The PMR treatments showed the highest removal rates of total PAHs at the end of the study, with degradation rates of 48–60 %. In the shoots of maize, only low- and medium-molecular-weight PAHs were found in both the PSS and PMR treatments. The calculated translocation and bioconversion factors always showed values < 1. The analysed enzymatic activities were higher in the PMR treatments compared to other treatments, which can be positively related to the higher degradation of PAHs in the soil.

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通过植物修复结合固态木质素分解真菌培养去除污水污泥改良土壤中的持久性多环芳烃
多环芳烃(PAHs)广泛存在于环境中,由于其对土壤健康、食品安全和潜在健康风险的影响,引起了越来越多的关注。为了评估多环芳烃在农用土壤中的消散情况,研究人员研究了四种生物修复策略,分别是:土壤-污泥自然衰减(SS);利用玉米(Zea mays L. )进行植物修复(PSS);菌核修复(MRCO)。PSS);分别使用三种白腐真菌(Pleurotus ostreatus、Phanerochaete chrysosporium 和 Irpex lacteus)进行菌核修复(MR);以及结合使用玉米和真菌进行植物辅助菌核修复(PMR)。在实验时间范围内,与 SS 和 PSS 处理相比,使用 P. chrysosporium 的菌核修复(MR-PH)对总 PAHs 的降解率明显更高(P < 0.05),降解率达到 52%。SS 和 PSS 处理对总 PAHs 的降解率较低,去除率分别为 18% 和 32%。PMR 处理在研究结束时对总 PAHs 的去除率最高,降解率达 48-60%。在 PSS 和 PMR 处理中,玉米嫩枝中只发现了低分子量和中等分子量的多环芳烃。计算得出的转运和生物转化因子值始终为 1。与其他处理相比,PMR 处理中的酶活性更高,这与土壤中 PAHs 的降解率更高呈正相关。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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