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氯代烃(CAHs)是工农业生产中广泛应用的重要化工原料,其处置不当或意外泄漏使其成为土壤和地下水中最常检测出的有毒有害污染物之一,对人体和生态环境危害巨大。生物修复技术因具有绿色、经济、高效和无二次污染等优势,是氯代烃污染治理的理想技术手段。文章在分析CAHs的理化性质、在环境中的迁移特征和生物降解机制的基础上,对实验室小试、中试等不同规模的微生物修复研究实例、联合修复的进展和降解转化机制进行梳理,同时对CAHs污染生物修复技术的影响因素进行概述,最后,对CAHs污染微生物修复技术的研究进行展望,未来应在采用微孔芯片与极限稀释技术开展低丰度降解菌的挖掘与解析、研发太阳能加热-生物原位修复等高效联合修复技术并分析修复效果影响因素等方面开展研究,以期为CAHs污染的高效、绿色治理提供技术支持。 相似文献
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针对地下水污染对环境尤其是对人类自身的严重危害。以往常见的治理方法主要是隔离法、泵提法、吸附法、化学栅栏法、电化学法等,采用生物修复技术与上述方法相比,具有独特的优势。由于地下水深埋于地下,生物修复技术的实施一般应结合污染的具体情况,采取不同的方法。 相似文献
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地浸采铀技术已成为世界采铀的主流工艺,采区退役后地下水环境修复亦为人们所关注的热点。文章简要介绍了碱法、中性和酸法三种典型地浸采铀技术的特点,系统分析了地浸采铀对地下水环境的影响,并以酸法地浸铀矿山地下水环境修复技术为例,重点介绍了物理化学修复技术和生物修复技术及其原理与应用,归纳总结了其优缺点,并对未来的研究方向进行了展望。指出下一步应加强在酸性与氧化环境中能使铀固定并长期稳定的新技术,高活性、强适应性修复菌群的选育、驯化技术,地下水异位-原位协同生物修复技术,以及放射性核素及重金属在铀矿地浸地下水环境中的吸附-解吸、氧化-还原、溶解-沉淀等行为与机理及其主控因素等方面的研究。 相似文献
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生物炭修复重金属污染土研究进展 总被引:4,自引:0,他引:4
随着城市化进程的加快及工业生产的迅速发展,土壤重金属污染日益加剧,对生态环境造成严重的危害。生物炭是缺氧或限氧条件下加热生物质制得的高度芳香化富含碳的固态物质,其在重金属污染土修复方面具有显著效果,受到广泛关注。基于近些年来国内外围绕生物炭修复重金属污染土所取得的研究成果,分别从生物炭的制备及性质、修复效果及其影响因素、修复机理等方面总结了该领域的研究现状及进展,取得如下主要认识:(1)生物炭具有价格低廉,修复效率高,改良土壤、环境友好等优势;(2)生物炭的理化性质主要受原材料和热解温度的影响,采用活化、磁化、氧化和消化等方法能改善生物炭的性质,提高修复效率;(3)生物炭对土壤中重金属迁移性和生物有效性的影响包括两个方面:固定重金属减少生物有效性或者迁移重金属增加生物有效性,后者可通过改性方法来降低重金属的迁移性和生物有效性;(4)生物炭对土体的固化效果一般,但可与其他固化材料共同使用,以改善土体的力学性质;(5)生物炭修复机理固定重金属的效果为:沉淀作用>络合作用>静电作用,离子交换>物理吸附。最后,针对该领域的研究现状,提出了未来的研究重点和方向,主要包括:建立划分生物炭的统一标准;探讨生物炭对多种重金属共同污染的修复效率;阐明生物炭吸附重金属的机理及其贡献率;扩大研究尺度;开展基于生物炭的固化试验及力学性质研究。 相似文献
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为研究矿山开采及修复过程中如何开展生物多样性管理,本文借鉴IUCN(世界自然保护联盟)发布的《矿山生物多样性管理系列指南》成果,将相关理论和方法应用到广东大宝山矿生态修复实践中。文章在介绍IUCN的“综合生物多样性管理体系”方法主要内容的基础上,将其作为大宝山矿实施生态修复依据,阐述了该管理体系在矿山生态修复工程中的应用,并结合广东大宝山矿的实际情况,提出了大宝山矿生物多样性管理的保护与修复框架,包括全周期的生物多样性管理手段,重点阐述大宝山矿生物多样性调查与监测、评价、保护与受损控制及恢复的技术方案,最后分析了对中国矿山生物多样性保护和修复的启示,IUCN矿山生物多样性管理系列指南对于指导我国矿山生态修复具有重要作用。 相似文献
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《上海国土资源》2018,(4)
石油作为现当代最主要的能源受到越来越多的关注,但同时随着石油的大量开发和运输,土壤的石油污染问题日益严重。当前,关于石油污染土壤的修复技术主要有物理、化学和生物技术,生物修复技术指利用特定的生物(植物、动物、微生物)吸收、转化、降解或清除环境污染物,使污染的土壤恢复健康的生物措施,可分为植物修复、微生物修复、动物修复及联合修复。生物修复因其简便、高效、安全、低成本、无二次污染、对环境影响小等特点而被认为是最有生命力、最具代表性和最有价值的处理技术,且已成为近些年来主要的石油污染处理方法。本文主要介绍石油污染土壤现状及其生物修复技术,并对生物修复今后的研究重点进行展望。 相似文献
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国土整治生态修复中的农业景观生物多样性保护策略 总被引:1,自引:0,他引:1
随着生态文明建设成为国家发展战略,国土整治修复需要更多生态科学和技术的支撑。农业景观生物多样性是重要的自然资源,为人类可持续发展提供了重要的生态系统服务,并提供了应对气候变化等风险的途径。本文分析了我国农业景观生物多样性保护及其对国土整治生态修复的重要性,国土整治生态修复中农业景观生物多样性保护面临的挑战,并总结了欧盟在农业景观生物多样性保护方面的经验和方法。最后,文章提出了将农业景观生物多样性保护整合到国土整治生态修复的四项策略,包括生态空间的“生态修复和管护-生态补偿-民生改善”策略、农业空间的“生态基础设施-生态系统服务提升-绿色发展”策略、城乡生活空间的“多功能景观-绿色宜居空间营造”策略、国土全域“生物多样性保护网络”策略,为生态文明背景下的国土整治生态修复提供参考。 相似文献
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矿山重金属污染土壤修复技术进展及展望 总被引:2,自引:0,他引:2
随着人们对矿山环境修复越来越重视,受矿山重金属污染土壤的修复技术不断向前发展,涌现出的新技术方法在矿山重金属污染土壤修复中发挥着日益重要的作用。本文通过对物理化学、植物、微生物和动物四大类矿山重金属污染土壤修复技术理论研究、试验和现场应用等方面入手,搜集大量资料,综述该四大类修复技术的研究现状和主要进展。总结提出矿山重金属污染土壤修复技术重点向4个方向发展:以低成本为导向的常规技术优化,包括常规廉价材料的有效利用、修复重金属污染的同时回收利用重金属(超积累植物和化学回收)等;以高精端新技术为导向的效率提升,包括纳米材料、生物薄膜等新型高效修复材料的研发、基因工程等,通过微观机理的精细研究大幅提高修复效率以降低总体成本;联合不同修复技术,如微生物—植物、化学—植物、物理—化学等联合修复技术,取长补短以实现更好的修复效果;加强不同修复技术的数据库和智能决策系统建设,促进技术成果转化。 相似文献
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采用弹性填料微孔曝气生物修复方法净化受污染的某饮用水源,探讨了天然水体环境温度变化对生物除NH4+-N作用效果的影响.结果表明,水体环境温度对生物修复工艺除NH4+-N作用影响很大.水温越高,生物修复工艺除NH4+-N效果越好.在较低水环境温度下,水温变化对生物修复工艺除NH4+-N作用效果影响最大;在日常水体温度下,水温变化对生物修复工艺除NH4+-N作用效果影响最小;在水体温度较高的条件下,水温变化对生物修复工艺除NH4+-N作用效果影响较小. 相似文献
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Recent studies have indicated that in situ aerobic bioremediation is one of the most effective methods for remediating groundwater contaminated with nitrobenzene (NB). Aerobic bioremediation is largely dependent on the maintenance of adequate dissolved oxygen (DO) levels in the groundwater. Traditional in situ aeration has various disadvantages, such as high operational costs and nonuniform aeration. In this study, integrative cubes were prepared and utilized as a novel biological permeable reactive barrier (bio-PRB) medium to enhance the aerobic bioremediation of NB-contaminated groundwater. The results revealed an NB removal rate greater than 98.68% after 15–20 days of continuous oxygen release from the bio-PRB medium. DO concentrations reached 8.0 mg/L during treatment, and NB-degrading bacteria were able to tolerate a range of pH conditions. This multifaceted bio-PRB medium can simultaneously adsorb and biodegrade NB, release oxygen, and neutralize the pH with phosphate buffer. The results of this study suggest that this bio-PRB medium represents a highly effective in situ bioremediation method for NB-contaminated groundwater. 相似文献
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多环芳烃生物恢复技术的研究进展 总被引:2,自引:0,他引:2
多环芳烃是一大类广泛存在于环境中的有机污染物,本文介绍了多环芳烃生物恢复的三种不同方法:就地耕作法,场外耕作法和塞流式污泥生物反应器,并对其研究现状和最新研究成果进行了归纳,总结和探讨。 相似文献
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Jun Wu Jian Lu Tianhu Chen Zhun He Yu Su Xin Jin Xiaoyan Yao 《Environmental Earth Sciences》2010,60(2):421-429
Feasibility of using straw as sole substrate for in situ bioremediation of acidic mine drainage (AMD) was studied. The result
showed that straw was more suitable than woodchips, which had been successfully used for bioremediating AMD at the source,
for establishing bioremediation layer. The sulfate removal rate of rice straw treatment was almost two times higher than that
of the woodchips treatment when the initial pH of the synthetic AMD was set to 3.0. Straw treatment may be more efficient
at reducing sulfate than woodchips treatment under stressful conditions. The sulfate removal rate of the rice straw treatment
increased from 8.67 to 21.77 mg L−1 day−1 when initial pH increased from 1 to 7 while the removal rate of woodchips treatment increased from 3.80 to 11.95 mg L−1 day−1. The sulfate removal rate of the rice straw treatment decreased from 13.93 to 9.91 mg L−1 day−1 when temperature decreased from 25 to 5°C while the removal rate of woodchips treatment decreased from 7.43 to 4.98 mg L−1 day−1. Differences in soluble organic carbon release between rice straw and woodchips led to the differences in bioremediation
efficiency. Concentrations of Cu2+ maintained at low level in the column effluent during the whole bioremediation period. Cu2+ was removed by forming sulfide precipitates. Microbial community analysis showed that sulfate reducing bacteria in the bioremediation
layer together with microorganisms capable of degrading rice straw caused the bioremediation of AMD. These findings have significant
environmental implications in terms of in situ bioremediation of AMD using straw as sole substrate. 相似文献
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S. Shankar C. Kansrajh M. G. Dinesh R. S. Satyan S. Kiruthika A. Tharanipriya 《International Journal of Environmental Science and Technology》2014,11(2):367-376
Bioremediation of oil spillage in soils using consortia of microbes beckons much exploration. The present study involves bioremediation of oil-contaminated soils from north Chennai, India, using indigenous microbial consortia. Totally, 32 positive oil degrading isolates were obtained from 3 different locations, i.e., petrol filling stations, automobile workshops and oil refineries. Substrate utilization patterns of individual isolates and the consortial sets were observed. Mixture of three common hydrocarbons (petrol, diesel and engine oil) was used for studies. The substrate oil utilized by consortia was taken for thin-layer and column chromatography which perfectly resulted in varied fractions of oil compared to the unused oil as control. The best consortia were used directly for bioremediation experiment. Three different oil-contaminated soils were used and bioremediation patterns were observed. The rate of bioremediation differed within soils, nevertheless all soils were almost 100 % reclaimed within 30 days. Bioremediation kinetics showed that the process corresponds to first-order kinetics and kinetic constants for the different soils ranged from 0.051 to 0.077/day. Assessment of detoxification of acute phytotoxicity owing to the pollutant oil was done, and results observed were significant. An increase of 25, 300 and 212 % in germination index, average growth index and sustenance index, respectively, of Trigonella foenum-graecum Linn. in treated soils was observed, compared to untreated soils. Thus, this study confirmed that microbes in ‘Consortial Union’ serve as better treating agents in bioremediation of oil-contaminated soils than individual microorganisms. 相似文献
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对重金属和辐射污染的土壤和地下水的微生物修复 总被引:1,自引:0,他引:1
由重金属和辐射产生的环境污染在世界范围内产生了一系列问题.利用特殊的微生物如金属还原和耐金属细菌对环境中的金属和辐射污染进行处理具有非常好的前景.现场的生物修复的成功应用将对清除污染环境中的重金属和辐射提供潜在方法.最近的研究还关注于了解在微生物群体内重金属和辐射对微生物的作用.生物毯和生物膜是在生物修复中具有代表性的两种微生物群落的机能.金属的种类和价态变化、转移过程以及微生物代谢作用是对金属和辐射生物修复的三种重要的组成部分.结合以上三方面,可以更好的了解自然中的微生物和生物修复过程之间的关系. 相似文献
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地下水有机污染治理技术现状及发展前景 总被引:14,自引:0,他引:14
概述了现有的几种地下水有机污染治理方法:抽出处理、注气-抽取土壤气、内在生物净化、流线控制、多技术结合法、生物治理、吸附、原位反应墙等工作原理和治理效果;简要分析了地下水有机污染治理技术存在的问题和发展前景。 相似文献
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利用微生物来降解土壤中的石油类污染物,是当前应用前景最好的土壤石油处理方法。多种因素同时制约着石油类污染物的生物降解。为了定量化各因素对彼此的影响,探求促进正向作用、抑制负向作用的途径,为各因素制定适宜的施用时间顺序以及施用量,以最大限度地加快降解速度,笔者设计了本文中的生物降解实验。结果表明,使用多因素复合处理方法可以在土壤石油处理中收到很好的效果;在实验的不同阶段,各影响因素的重要性及最优水平也会不同程度地变化。 相似文献
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Wang Huan Chen Yudao He Lewei Jiang Yaping Xia Yuan Yang Pengfei 《Hydrogeology Journal》2022,30(1):151-161
Hydrogeology Journal - Enhanced bioremediation combined with in-situ chemical oxidation has the potential to remediate groundwater contaminated with organics. To explore the remediating effects of... 相似文献
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Biotechnological advances in bioremediation of heavy metals contaminated ecosystems: an overview with special reference to phytoremediation 总被引:2,自引:0,他引:2
D. Mani Chitranjan Kumar 《International Journal of Environmental Science and Technology》2014,11(3):843-872
The ability of heavy metals bioaccumulation to cause toxicity in biological systems—human, animals, microorganisms and plants—is an important issue for environmental health and safety. Recent biotechnological approaches for bioremediation include biomineralization (mineral synthesis by living organisms or biomaterials), biosorption (dead microbial and renewable agricultural biomass), phytostabilization (immobilization in plant roots), hyperaccumulation (exceptional metal concentration in plant shoots), dendroremediation (growing trees in polluted soils), biostimulation (stimulating living microbial population), rhizoremediation (plant and microbe), mycoremediation (stimulating living fungi/mycelial ultrafiltration), cyanoremediation (stimulating algal mass for remediation) and genoremediation (stimulating gene for remediation process). The adequate restoration of the environment requires cooperation, integration and assimilation of such biotechnological advances along with traditional and ethical wisdom to unravel the mystery of nature in the emerging field of bioremediation. This review highlights better understanding of the problems associated with the toxicity of heavy metals to the contaminated ecosystems and their viable, sustainable and eco-friendly bioremediation technologies, especially the mechanisms of phytoremediation of heavy metals along with some case studies in India and abroad. However, the challenges (biosafety assessment and genetic pollution) involved in adopting the new initiatives for cleaning-up the heavy metals-contaminated ecosystems from both ecological and greener point of view must not be ignored. 相似文献