Use of surfactants in biodegradation of hydrophobic compounds: A review

I. Topchiy, D. Stom, K. Donina, S. Alferov, I. Nechaeva, А. B. Kupchinsky, B. N. Ogarkov, Y. Petrova, E. Antonova
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Abstract

Industrial development has led to immense emission and accumulation of hydrophobic organic compounds (HOC) in the environment. Primarily, they include petroleum hydrocarbons, polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs). The extensive use of hydrophobic pesticides in agriculture led to the contamination of soil, air and water. Many of the hydrophobic substances are dangerous for the biota due to their high toxicity and carcinogenic and mutagenic activity. In addition to their widespread use, the possible adverse effects are also determined by their resistance to decomposition, including the biological one, which defines their long-term persistence in soil, water and other media. The impact of HOC on ecosystems poses a potential threat not only to the environment but also to human health. Numerous studies were devoted to the remediation of soils polluted with HOC. The approaches to remediation can be conditionally divided into mechanical, chemical and bio-methods, with the former two being widely used in the past. Bioremediation methods proved more efficient and, as a rule, more cost-effective and environmentally friendly. In recent years, the good efficiency of solubilizing agents in bioremediation processes has been demonstrated. Various surfactants have become widely popular due to their ability to increase desorption, water solubility and microbial bioavailability of HOC. In this brief review, state-of-the-art literature data on the biodegradation of hydrophobic organic compounds using surfactants were considered.
表面活性剂在疏水化合物生物降解中的应用综述
工业发展导致环境中疏水有机化合物(HOC)的大量排放和积累。主要包括石油烃、多环芳烃(PAHs)和多氯联苯(PCBs)。疏水农药在农业中的广泛使用导致了土壤、空气和水的污染。许多疏水物质由于其高毒性和致癌性和诱变性对生物群是危险的。除了它们的广泛使用外,可能产生的不利影响还取决于它们对分解的抵抗力,包括生物分解,这决定了它们在土壤、水和其他介质中的长期持久性。HOC对生态系统的影响不仅对环境,而且对人类健康构成潜在威胁。大量的研究致力于修复被HOC污染的土壤。修复方法可有条件地分为机械法、化学法和生物法,其中前两种方法在过去被广泛使用。事实证明,生物修复方法效率更高,而且通常更具成本效益和环境友好性。近年来,增溶剂在生物修复过程中具有良好的效果。各种表面活性剂因其提高HOC的解吸性、水溶性和微生物利用度的能力而受到广泛欢迎。在这篇简短的综述中,考虑了使用表面活性剂生物降解疏水有机化合物的最新文献数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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