高氯酸盐来源、污染和修复技术的简要概述

IF 1.9 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Kotabhaargavi Sai, Meera Soundarajan, Kubera Raj Selvaraj, Shivani Somasundaram, Praveen Kumar, MuthuKumar Raghunathan
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引用次数: 0

摘要

摘要高氯酸盐已成为环境中最重要的污染物之一。高氯酸盐造成了与人类和环境健康有关的困难。在污染地区,降解高氯酸盐的微生物现在是很有前途的生物修复技术。基于化学、物理和其他生物方法的微生物受到经济和环境原因的青睐。这些微生物是环境中高氯酸盐分解的原因。这篇最新的评论探讨了高氯酸盐是一种非挥发性阴离子,由于氯原子的最氧化形式,它是非活性的和动力学稳定的。然而,高氯酸盐污染的几种工业应用已成为全球关注的问题。高氯酸盐对生态系统有一些不良影响,因为它会随着许多人为活动而降低环境质量。目前,高氯酸盐还原微生物已被证明是一种很有前途的生物修复方法。可以假设,使用高氯酸盐还原微生物的生物反应器将提高水处理的效果,并预防由高氯酸盐污染引起的几种致命疾病。此外,本研究还深入探讨了用于减轻高氯酸盐污染的创新和传统修复技术。它涵盖了广泛的策略,包括生物处理、离子交换、化学还原和植物修复等。此外,本文还讨论了每种技术的优点、局限性和可行性,并考虑了成本、可扩展性和特定于站点的条件等因素。关键词:生物反应器生物修复污染物代谢途径高氯酸毒性鸣谢作者感谢生物工程学院生物工程系和SRM科学技术研究所为本研究提供了必要的设施。披露声明作者未披露任何可能的利益冲突。本项目的执行没有得到任何资助机构的支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A concise overview of perchlorate sources, contamination, and remediation techniques
AbstractPerchlorate has become one of the most significant contaminants in our environment. Perchlorate is responsible for difficulties relating to both human and environmental health. In contaminated areas, microorganisms that degrade perchlorate are now promising bioremediation techniques. Microorganisms based on chemical, physical, and other biological approaches are favored for economic and environmental reasons. These microbes were accountable for the breakdown of perchlorate in the environment. This state-of-the-art review explores the perchlorate is a nonvolatile anion that is non-reactive and kinetically stable due to the most oxidized form of the chlorine atom. However, several industrial applications of perchlorate contamination have become a global concern. Perchlorate has several undesirable effects on the ecosystem as it degrades the environmental quality along with numerous anthropogenic activities. Currently, perchlorate-reducing microbes have proven to be a promising approach toward bioremediation. It can be hypothesized that bioreactors using perchlorate-reducing microbes would facilitate water treatment’s efficacy and prevent several deadly diseases caused by perchlorate contamination. Additionally, this study delves into innovative and conventional remediation techniques used to mitigate perchlorate contamination. It covers a wide range of strategies, including biological treatments, ion exchange, chemical reduction, and phytoremediation, among others. Furthermore, it discusses each technique’s advantages, limitations, and feasibility, considering factors such as cost, scalability, and site-specific conditions.Keywords: Bioreactorbioremediationcontaminantmetabolic pathwaysperchloratetoxicity AcknowledgmentsThe authors would like to acknowledge the Department of Biotechnology, School of Bioengineering, and SRM Institute of Science and Technology for providing the necessary facilities for the research.Disclosure statementThe authors disclosed no possible conflicts of interest.Additional informationFundingThis project’s execution was not supported by any funding agencies.
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来源期刊
Bioremediation Journal
Bioremediation Journal ENVIRONMENTAL SCIENCES-
CiteScore
5.30
自引率
0.00%
发文量
36
审稿时长
9 months
期刊介绍: Bioremediation Journal is a peer-reviewed quarterly that publishes current, original laboratory and field research in bioremediation, the use of biological and supporting physical treatments to treat contaminated soil and groundwater. The journal rapidly disseminates new information on emerging and maturing bioremediation technologies and integrates scientific research and engineering practices. The authors, editors, and readers are scientists, field engineers, site remediation managers, and regulatory experts from the academic, industrial, and government sectors worldwide. High-quality, original articles make up the primary content. Other contributions are technical notes, short communications, and occasional invited review articles.
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