Biodegradation of 2,4,6‐trinitrotoluene and hexahydro‐1,3,5‐trinitro‐1,3,5‐triazine by Actinomycetes species, first time isolated and characterized from water, wastewater, and sludge

IF 1.7 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Water and Environment Journal Pub Date : 2023-03-14 DOI:10.1111/wej.12857
Murteza Jaafaryneya, J. Amani, R. Halabian
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引用次数: 1

Abstract

Biodegradation has been applied to remediate explosives contaminants, and bacteria have a high potential for the degradation of explosives, such as hexahydro‐1,3,5‐trinitro‐1,3,5‐triazine (RDX) and 2,4,6‐trinitrotoluene (TNT). The present study aims to screen and characterize explosive biodegradable Actinomycetes from water, wastewater, and sludge. Actinomycetes isolates were recovered from 80 environmental samples from diverse environmental resources in explosive contaminated areas of Iran and identified to the genus and species levels using conventional and molecular methods. The growth rate in the presence of pollutants and chromatography was used to determine their biodegradation capability. Twenty‐nine isolates (36.25%) of Actinomycetes were characterized from the cultured samples that belonged to 6 genus and 24 validated species. The most prevalent Actinomycetes isolated were genus Mycobacterium with 11 isolates (37.94%), genus Rhodococcus with seven isolates (24.13%), genus Nocardia with four isolates (13.8%), and genus Streptomyces with three isolates (10.33%). Moreover, our results showed that these isolates could degrade and consume 50–80% of RDX and TNT as their sole carbon and energy source. In conclusion, we showed that Actinomycetes from explosive‐contaminated areas of Iran could degrade TNT and RDX. Hence, seeking and screening untapped ecosystems that possess unexplored Actinomycetes will increase the chances of discovering the resident microorganism that has been capable of degrading TNT and RDX for application in the bioremediation process. The results of this study can be useful in using intact bacteria in nature to eliminate environmental pollution, which is one of the major environmental problems in the world.

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首次从水中、废水和污泥中分离和表征的放线菌对2,4,6-三硝基甲苯和六氢-1,3,5-三硝基-1,3,5-三甲嗪的生物降解
生物降解已被应用于修复爆炸物污染物,细菌具有很高的降解爆炸物的潜力,如六氢-1,3,5-三硝基-1,3,5-三甲嗪(RDX)和2,4,6-三硝基甲苯(TNT)。本研究旨在从水、废水和污泥中筛选和表征爆炸性可生物降解放线菌。从伊朗爆炸物污染地区不同环境资源的80个环境样本中回收放线菌分离株,并使用常规和分子方法在属和种水平上进行鉴定。使用污染物存在下的生长速率和色谱法来确定其生物降解能力。从培养的样品中鉴定出29个放线菌分离株(36.25%),属于6属和24个经验证的物种。最常见的放线菌是分枝杆菌属11株(37.94%)、红球菌属7株(24.13%)、诺卡氏菌属4株(13.8%)和链霉菌属3株(10.33%)。总之,我们表明,来自伊朗爆炸物污染地区的放线菌可以降解TNT和RDX。因此,寻找和筛选拥有未开发放线菌的未开发生态系统将增加发现能够降解TNT和RDX的常驻微生物用于生物修复过程的机会。这项研究的结果有助于利用自然界中的完整细菌来消除环境污染,这是世界上主要的环境问题之一。
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来源期刊
Water and Environment Journal
Water and Environment Journal 环境科学-湖沼学
CiteScore
4.80
自引率
0.00%
发文量
67
审稿时长
18-36 weeks
期刊介绍: Water and Environment Journal is an internationally recognised peer reviewed Journal for the dissemination of innovations and solutions focussed on enhancing water management best practice. Water and Environment Journal is available to over 12,000 institutions with a further 7,000 copies physically distributed to the Chartered Institution of Water and Environmental Management (CIWEM) membership, comprised of environment sector professionals based across the value chain (utilities, consultancy, technology suppliers, regulators, government and NGOs). As such, the journal provides a conduit between academics and practitioners. We therefore particularly encourage contributions focussed at the interface between academia and industry, which deliver industrially impactful applied research underpinned by scientific evidence. We are keen to attract papers on a broad range of subjects including: -Water and wastewater treatment for agricultural, municipal and industrial applications -Sludge treatment including processing, storage and management -Water recycling -Urban and stormwater management -Integrated water management strategies -Water infrastructure and distribution -Climate change mitigation including management of impacts on agriculture, urban areas and infrastructure
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