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Evaluation of bioremediation strategies for treating recalcitrant halo-organic pollutants in soil environments

机译:治疗土壤环境中顽抗卤素有机污染物的生物修复策略评价

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摘要

The aim of this study was to investigate the bioremediation potential of polychlorinated biphenyls (PCBs) in soil, mimicking three strategies: (a) mycoaugmentation: by the addition of Trametes sanguinea and Pleurotus sajor-caju co-cultures immobilized on sugarcane bagasse; (b) biostimulation: by supplementation of sugarcane bagasse; and (c) natural attenuation: no amendments. The experiments were done in microcosms using Ultisol soil. Remediation effectiveness was assessed based on pollutants content, soil characteristics, and ecotoxicological tests. Biostimulation and mycoaugmentation demonstrated the highest PCBs-removal (approx. 90%) with a significant toxicity reduction at 90 d. The studied strains were able to survive during the incubation period in non-sterilized soil. Laccase, manganese-peroxidase and endoxylanase activities increased significantly in co-cultures after 60 d. Sugarcane bagasse demonstrated to be not only a suitable support for fungal immobilization but also an efficient substrate for fungal colonization of PCBs-contaminated soils. Mycoaugmentation and biostimulation with sugarcane bagasse improved oxidable organic matter and phosphorous contents as well as dehydrogenase activity in soil. Therefore, biostimulation with sugarcane bagasse and mycoaugmentation applying dual white-rot fungal cultures constitute two efficient bioremediation alternatives to restore PCBs-contaminated soils.
机译:本研究的目的是探讨土壤中多氯联苯(PCB)的生物修复潜力,模仿三种策略:(a)Mycouutation:通过添加argetes sanguinea和pleurotus sajor-caju的共同培养物,固定在甘蔗面包片上; (b)生物刺激:通过补充甘蔗蛋白; (c)自然衰减:没有修改。使用Ultisol土壤在微观体中进行实验。根据污染物含量,土壤特性和生态毒理学测试评估修复效果。生物抑制和岩白灭绝证明了90天的显着毒性毒性的最高的PCBS除去(约90%)。研究的菌株在非灭菌土壤中的潜伏期期间能够存活。在60 d后,共培养物在共培养物中显着增加了漆。 Sugarcane Bagasse证明不仅是对真菌固定的适当支持,而且是PCBS污染土壤的真菌定植的有效基质。甘蔗面包糖的岩白沉积和生物刺激改善了氧化有机质和磷含量以及土壤中的脱氢酶活性。因此,用甘蔗果糖和肌肤染色的生物刺激施用双白腐真菌培养物构成了两种有效的生物修复替代方法,以恢复PCBS污染的土壤。

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  • 来源
    《Ecotoxicology and Environmental Safety》 |2020年第10期|110929.1-110929.10|共10页
  • 作者

    Alejandra Sadanoski Marcela; Silvia Tatarin Ana; Lucrecia Barchuk Monica; Gonzalez Mariana; Nicolas Pegoraro Cesar; Isabel Fonseca Maria; Noemi Levin Laura; Lidia Villalba Laura;

  • 作者单位

    Univ Nacl Misiones Fac Ciencias Exactas Quim & Nat Inst Biotecnol Misiones Lab Biotecnol Mol CONICET RA-3300 Posadas Misiones Argentina;

    Univ Nacl Misiones Fac Ciencias Exactas Quim & Nat Inst Biotecnol Misiones Lab Biotecnol Mol CONICET RA-3300 Posadas Misiones Argentina;

    Univ Nacl Misiones Fac Ciencias Exactas Quim & Nat Inst Biotecnol Misiones Lab Biotecnol Mol CONICET RA-3300 Posadas Misiones Argentina;

    Univ Nacl Mar Del Plata Fac Ciencias Exactas & Nat Estresores Multiples Ambiente EMA IIMyC CONICET B7602AYL Mar Del Plata Argentina;

    Univ Nacl Mar Del Plata Dept Quim Fac Ciencias Exactas & Nat CONICET B7602AYL Mar Del Plata Argentina;

    Univ Nacl Misiones Fac Ciencias Exactas Quim & Nat Inst Biotecnol Misiones Lab Biotecnol Mol CONICET RA-3300 Posadas Misiones Argentina;

    UBA Lab Micol Expt Dept Biodiversidad & Biol Expt FCEN INMIBO CONICET RA-1428 Caba Argentina;

    Univ Nacl Misiones Fac Ciencias Exactas Quim & Nat Inst Biotecnol Misiones Lab Biotecnol Mol CONICET RA-3300 Posadas Misiones Argentina;

  • 收录信息 美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Trametes sanguinea; Pleurotus sajor-Caju; Mycoremediation; Biostimulation; Polychlorinated biphenyls;

    机译:Trametes sanguinea;pleurotus sajor-caju;mycoremiation;生物刺激;多氯联苯;

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