环境矿物材料基本性能：无机界矿物天然自净化功能

重点阐述环境矿物材料基本性能，包括矿物表面吸附、孔道过滤、结构调整、离子交换、化学活性、物理效应、纳米效应及与生物交互作用等，旨在发掘、凝炼并新提出物理方法和化学方法之后与有机界生物同效的无机界矿物天然自净化功能的基础理论与应用方法，以发展和完善无机矿物与有机生物所共同构筑的自然界中存在的天然自净化系统，并就目前笔者在黄铁矿、锰钾矿、金红石、蛭石、蒙脱石、苋铁铁钒等天然矿物方面已经完成和正在开展的一系列环境矿物材料研究工作进行了举例说明。     

铁矿物催化氧化技术在水处理中的应用

广泛存在于地下水中的各种有机污染物严重影响着水资源的安全利用,常见的水处理工艺对持久性有机污染物去除效果不够理想。近年来,天然含铁矿物作为催化剂,催化过氧化氢的化学治理方法对各种有机污染物去除效果显著。概述近年来主要含铁矿物、负载型矿物和纳米矿物材料催化过氧化氢在地下水有机污染去除中的应用,探讨了该领域的发展现状和存在问题,并对其应用前景进行展望。认为天然矿物材料具有成本低、在地壳中含量高、环境友好等特点,可用于多种有机污染物的去除与降解。但处理过程中,天然有机质的作用、纳米矿物材料的毒性和地球化学归宿问题应该做进一步研究。     

矿物环境属性与无机界天然自净化功能

本将矿物学研究从岩石圈拓展到水圈、大气圈、生物圈与土壤圈之间交互作用的矿物环境属性范畴，研究表明，矿物可成为记录环境演变信息的载体；防止矿物的破坏与分解有可能减少甚至避免由此所造成的对人体健康的影响与生态环境的破坏；矿物与生物交互作用的研究与天然矿物治理污染物的是建立在充分利用自然规律的基础之上，体现了天然自净化作用的特色。天然矿物对污染物的净化功能主要体现在环境矿物材料基本性能方面。天然铁的硫化物，铁的氧化物，锰的氧化物、钛的氧化物。蛭石，有机蒙脱石和含高价阳离子蒙脱石，以及黄钾铁矾等均在处理无机与有机污染物方面展现出良好效果，矿物与其环境界面原子尺度相互作用过程研究，矿物内部结构缺陷影响矿物表面活性规律研究，矿物晶体结构中不同维次连通性孔道效应研究,矿物化学活性作发化污染物方法研究，以及矿物晶芽与生物细胞层次上交互作用净化污染物机理研究等，将是近期着力开发无机界矿物天然自净化功能的重点研究内容。     

铁锰氧化物在污染土壤修复中的作用

矿物学在环境科学中的应用将是21世纪矿物学研究的一个主要方面。土壤污染作为一个制约人类社会可持续发展的基本问题正受到日益广泛的关注，污染土壤的修复已成为环境科学研究的一个重点。污染土壤的修复技术主要有物理、化学、生物等方法，但是，它们都不同程度地存在着缺陷。众所周知，铁和锰是自然界中少数但常见的变价元素。含有变价元素和带有表面电荷的铁锰氧化物具有良好的表面活性，不仅对有毒有害的无机污染物具有良好的净化功能，而且对土壤中有机污染物具有氧化降解作用。利用这些矿物来修复污染土壤，具有成本低、无二次污染等优点，体现出天然净化作用的特色，展现出广阔的环境矿物学应用前景。     

Long-term performance evaluation of zero-valent iron amended permeable reactive barriers for groundwater remediation – A mechanistic approach

Permeable reactive barriers (PRBs) are used for groundwater remediation at contaminated sites worldwide. This technology has been efficient at appropriate sites for treating organic and inorganic contaminants using zero-valent iron (ZVI) as a reductant and as a reactive material. Continued development of the technology over the years suggests that a robust understanding of PRB performance and the mechanisms involved is still lacking. Conflicting information in the scientific literature downplays the critical role of ZVI corrosion in the remediation of various organic and inorganic pollutants. Additionally, there is a lack of information on how different mechanisms act in tandem to affect ZVI-groundwater systems through time. In this review paper, we describe the underlying mechanisms of PRB performance and remove isolated misconceptions. We discuss the primary mechanisms of ZVI transformation and aging in PRBs and the role of iron corrosion products. We review numerous sites to reinforce our understanding of the interactions between groundwater contaminants and ZVI and the authigenic minerals that form within PRBs. Our findings show that ZVI corrosion products and mineral precipitates play critical roles in the long-term performance of PRBs by influencing the reactivity of ZVI. Pore occlusion by mineral precipitates occurs at the influent side of PRBs and is enhanced by dissolved oxygen and groundwater rich in dissolved solids and high alkalinity, which negatively impacts hydraulic conductivity, allowing contaminants to potentially bypass the treatment zone. Further development of site characterization tools and models is needed to support effective PRB designs for groundwater remediation.     

Organic Pollutants in Coastal Waters,Sediments, and Biota: A Relevant Driver for Ecosystems During the Anthropocene?

The total number of synthetic organic chemicals introduced to the environment by humans has never been quantified, but it is not lower than thousands. A fraction of these chemicals have toxic effects to coastal organisms and presumably affect ecosystems structure and function. During the last decades, some of the processes affecting the transport, degradation, and fate of a limited number of chemicals have been studied, and the rising concern for environmental risk of organic chemical has lead to the regulation of a few of them by national and international organisms. However, the environmental inventory of organic pollutants is far from being quantified, and current methodologies used in most toxicological tests only allow to determine effects of individual chemicals to organisms. There are major limitations on appropriate methodologies to assess the effects of organic pollutants at population and ecosystem levels and the effects induced by complex mixtures of organic pollutants present in natural environments. The modification of the composition of the biosphere by a myriad of organic pollutants at ultra-trace levels is not yet regarded as another vector of environmental change which is irreversible due to the persistent character of many of these chemicals and due to its global coverage. Here, we claim that the modification of the atmosphere, water, sediments, and biota composition is a factor to be taken into account in coastal ecosystems, and that its pressure on the environment has been exponentially increasing during the last six decades of the anthropocene.     

冻结技术在水土重金属污染净化与修复中的应用及进展

随着工业化进程的加快,水土重金属污染事件逐渐增多,对其治理与修复成为当前的迫切工作。冻结技术在治理修复污染水土时,其修复过程只向地层输入“冷量”,属于绿色修复技术,无二次污染风险,受到越来越多的关注。详细总结了冻结技术的修复机理,及其在污水、污泥、重金属污染土壤治理修复中的应用现状和最新研究进展。冻结修复机理是通过冰的自净作用和固-液相平衡原理来实现污染物的定向驱赶和富集,而黏性土壤颗粒的吸附和阻滞作用使单一技术对重金属污染土壤的修复难度增大,其他修复手段与冻结技术联合处理成为一种新的思路。利用冻结土体的低渗透性,还可有效降低污染物的迁移速度,封闭不同种类污染物,形成阻隔污染物扩散的冻结屏障。冻结修复技术在水土重金属污染净化及修复领域具有良好的应用前景。     

Technical Challenges to In-situ Remediation of Polluted Sites

Throughout the world, subsurface contamination has become a widespread and pervasive problem. Toxic chemicals such as heavy metals and organic compounds are commonly used in a myriad of industries. However, largely through inadvertent or accidental release, these chemicals are presently polluting sites across the United States. In order to protect public health and the environment, further pollution must be prevented and sites with existing contamination urgently need remediation. Unfortunately, remediating subsurface contamination has proved to be a daunting task. Heavy metals and organic compounds often coexist and their distribution within the subsurface is highly dependent on particle and macro-scale heterogeneities. Vast resources have been invested to develop efficient remediation technologies, yet very few of these technologies have been successful. In-situ remediation is often preferred due to minimal site disturbance, safety, simplicity, and cost-effectiveness. The effectiveness of in-situ remediation technologies depends largely on the contaminant chemistry and subsurface heterogeneities (including particle-scale heterogeneities such as fine-grained soils, soils with reactive minerals, and/or soils rich in organic matter as well as macro-scale heterogeneities such as irregular soil layers and/or lenses). Under such heterogeneous conditions, integrated electrokinetic remediation technology has great potential. As a safe and economical remedial option for so many contaminated sites, the application of integrated electrokinetic remediation offers enormous public health, environmental, and financial benefits.     

分子荧光偏振技术及其在研究腐殖物质与污染物相互作用方面的研究进展

腐殖物质对污染物如有毒金属元素(如汞．铜和铅等)及有机污分子荧光染物(如多环芳烃,有下几农药等)具有络合或吸附作用,从而改变污染物的存在形式及其迁侈途径．所以能有效地降低污染物的毒性。近年来,用分子荧光学研究两者间的这种作用过程逐渐得到人们的关注。本文综述了运用荧光偏振技术在腐殖物质与污染物的相互作用领域的研究现状。荧光偏振的研究成果可加深对腐殖物质与污染机理的认识．能较精确地定量评估它们之间的作用强度．了解它们结合后的分子构型变化．有助于了解污染物在环境中的生物地球化学循环。     

Fe(Ⅱ)/铁氧化物表面结合铁系统还原有机污染物的研究进展

在土壤和沉积物的自然厌氧环境中,铁氧化物可被铁还原菌等微生物异化还原产生Fe(Ⅱ),形成的Fe(Ⅱ)/铁氧化物表面结合铁系统具有还原活性,可使有机污染物还原转化。综述了含卤和含硝基有机污染物的非生物还原转化过程和表面结合铁系统与有机污染物之间的界面反应机理,进而揭示了污染物在环境中的赋存状态和迁移转化规律;重点分析了影响该还原过程的因素,如铁氧化物类型、pH值、Fe(Ⅱ)与铁氧化物接触时间,以及过渡金属、腐殖酸等竞争因子对反应过程的影响。强化自然界中天然的Fe(Ⅱ)/铁氧化物表面结合铁系统在有机污染治理中的作用,在受污染环境修复领域具有广阔的应用前景。 [HT5H]关 键 词:[HT5K]     

Methanotrophs: promising bacteria for environmental remediation

Methanotrophs are unique and ubiquitous bacteria that utilize methane as a sole source of carbon and energy from the atmosphere. Besides, methanotrophs may also be targeted for bioremediation of diverse type of heavy metals and organic pollutants owing to the presence of broad-spectrum methane monooxygenases enzyme. They are highly specialized group of aerobic bacteria and have a unique capacity for oxidation of certain types of organic pollutants like alkanes, aromatics, halogenated alkenes, etc. Oxidation reactions are initiated by methane monooxygenases enzyme, which can be expressed by methanotrophs in the absence of copper. The present article describes briefly the concerns regarding the unusual reactivity and broad substrate profiles of methane monooxygenases, which indicate many potential applications in bioremediation of heavy metals and toxic organic compounds. Research is needed to develop understanding in plant–methanotrophs interactions that optimize methanotrophs utilization in the field of environmental remediation, while supporting other ecosystem services.     

Research progress on the soil vapor extraction

Soil vapor extraction (SVE), the most common, efficient and economical means of remediation, is an in-situ remediation technique for removing volatile pollutants from unsaturated soil. The paper briefly introduced the technological rationale and cha?racteristics, summarized the theories and application research for SVE at home and abroad, and made the expectations and suggestions for the research on SVE. The international scholars have systematically researched the influence factors, remediation mechanism and numerical simulation of SVE. At present, SVE has been mostly integrated with other techniques to form enhanced SVE techniques, such as thermally enhanced SVE and AS-SVE (Air sparging-SVE), to be used for the field remediation widely. Compared with foreign countries, researches of Chinese scholars mainly focus on the laboratory research, especially on the influence factors, but rarely study the SVE model and the mass transfer mechanism of pollutant in SVE process. The SVE pilot studies are rare in China, and the field application has not been reported. In view of this situation, Chinese scholars in the future research can focus on the following aspects: (1) strengthening the research and systematized summary of SVE technical parameters and related knowledge; (2) strengthening the research on the mechanism and model of gas-phase mass transfer of pollutants in soil during SVE process; (3) strengthening the research on the enhanced SVE techniques and its application to actual site remediation.     

Influence Factors on the In-situ Remediation of Halogenated Organic Compounds by Nanoscale Zerovalent Iron

The pollution of soil and groundwater by halogenated organic compounds (HOCs) is more and more severe. HOCs are of strong toxicity and difficult to be biodegraded. Due to its unique advantages, nanoscale zerovalent iron (NZVI) has become a hot research topic in the field of in situ remediation around the world. In this paper, basic reaction theories and kinetics of HOCs degradation by NZVI are briefly summarized. The influence factors on the in situ remediation of HOCs by NZVI are comprehensively discussed. The influence factors include the intrinsic properties of NZVI due to its different preparation and modification methods, and environment factors, such as pH, dissolved oxygen, ionic species, metals, nonreactive hydrophobic and natural organic compounds, concentrations and components of HOCs, microorganisms and subsurface heterogeneity. The effects of all these factors on NZVI stability, deliverability, targeting ability, and reactivity during in situ remediation are emphasized. Finally, the practical application of this technology are summarized and prospected.     

有机物污染的土壤治理方法及研究进展

污染土壤的修复已成为环境保护研究的一个重点。本基干有机物污染土壤治理的最新进展,介绍有机物污染土壤的物理、化学、生物、植物治理方法。并讨论了各种治理方法的最新动态与存在问题。     

Accumulation discrepancy of heavy metal and organic pollutants in three near-shore depositional environments, southeastern China

Heavy metal and organic pollutants in sediments along the coastal zone of southeastern China have been investigated. Sediment samples are retrieved from three depositional environments: coast, estuary, and tide-affected river mouth. The relative abundance of heavy metal and organic pollutants is related to their geochemical properties as well as depositional environments and anthropogenic discharge. Based on a sequential extraction method, it is revealed that anthropogenic Pb, Cr, Cu, and Cd are mainly bound to Fe–Mn oxides, suggesting that adsorption and co-precipitation of Fe–Mn oxides are in the control of their transfer processes from water column to sediment. Heavy metal bound to carbonates is also an important pool especially for Cd, Mn, and Pb. The main organic pollutants found in the study area include petroleum-related alkanes, phthalic acid ester, organic silicon, chlorophenol, phenyl ether, and amine. The accumulation of heavy metals and organics in surficial sediments has a decrease tendency from estuarine environment to coastal environment and to tide-affected river mouth.     

菌根真菌对土壤中有机污染物的修复研究

菌根真菌是真菌与植物之间特殊的联合共生体，利用菌根真菌修复土壤，尤其是修复有机污染物污染的土壤，正成为一个崭新的研究方向。菌根真菌是土壤真菌的一种，但与土壤中放线菌和细菌等微生物相比，其对土壤中有机污染物具有更大的忍耐能力，并且能利用土壤中大多数持久性有机污染物作为碳源来获取能量。综述了近20年菌根真菌对土壤有机污染物降解研究，讨论了菌根真菌降解土壤有机污染物的可能机制，并探讨了从引入固氮菌、外源细菌两个方面对菌根调控以提高修复效果的可能性，为进一步研究菌根真菌生物降解土壤中持久性有机污染物、利用菌根植物修复有机污染土壤提供信息。     

不同种类纳米零价铁的毒性比较研究

纳米零价铁是一种高效的环境修复材料,可以处理多种污染物;然而,纳米粒子的尺寸效应可能导致其在自然界中存在潜在毒性风险。选择几种常用包覆型、负载型和裸露的纳米铁,通过大肠杆菌的耐受性实验,比较3种纳米铁的毒性。研究表明,负载型纳米铁的分散性最好,而裸露纳米铁最差。3种纳米铁虽然对大肠杆菌都表现出毒性,但是负载型纳米铁的毒性最小。通过毒性减缓的机理分析,说明纳米铁改性后阻止了纳米颗粒与细菌的直接接触,这是空间位阻效应的作用。研究结果进一步证实了在使用纳米材料前应充分评估潜在毒性和环境效应的重要性。     

有机污染土壤-地下水系统中的微生物场及多场耦合研究

了解污染场地中微生物群落对有机污染物迁移转化的影响是高效修复治理有机污染场地的基础。自然界中的微生物以“场”的形式通过与水动力场、温度场、化学场等耦合作用,发挥其在维护生态稳定性及物质循环过程中的功能。微生物与有机物关联研究的文献计量分析结果显示,近年来关于微生物和有机物的研究主要集中在微生物群落结构、有机物的生物降解及有机物的迁移转化3个方面及一系列的关联研究中,而关于将微生物以“场”的形式定量刻画微生物在物质循环转化和维持生态稳定性方面作用的研究几乎没有。为此,本文通过研究给出了微生物场的定义,提出了有机污染场地中的微生物场概念模型和数学模型,分析了微生物场的主要影响因素及影响机制,构建了微生物场与水动力场、温度场、化学场之间耦合的本构模型。最后,对微生物场下一步的研究提出了展望。     

纳米零价铁地下水修复技术的最新研究进展

纳米零价铁（NZVI）是粒径在1～100nm之间的铁颗粒,它的比表面积和反应活性远远大于普通铁屑和铁粉,可以直接注入到含水层的重污染区,形成一个高效的原位反应带,灵活、高效、低成本地治理地下水污染。NZVI不仅可以降解各种卤代烃,还可以降解部分不含卤族元素的有机污染物,吸附或降解地下水中的重金属离子和多种无机阴离子。NZVI地下水修复技术在发达国家已经得到工程应用并正在迅速推广,原位场地因素对NZVI地下水修复效果的影响是今后该领域重要发展方向。NZVI在含水层中的有效分散和运移是今后NZVI用于地下水修复的主要突破点。     

冻融循环对多年冻土区石油迁移影响试验研究

多年冻土区石油污染物迁移过程和特点、污染定量评价、防治和治理措施研发,都是目前寒区经济发展和能源开发迫切需要解决的重要课题.通过室内试验对土体温度场分布、水分分布和石油总量分布的监测分析,研究了冻融循环作用对迁移过程的影响机制.试验结果表明,冻融循环作用通过影响石油污染物本身的物理性质、土颗粒对石油污染物的吸附作用和土体内水相的分布和相状态,影响了石油污染物的迁移过程.原油黏度随温度的降低逐渐增加,使得原油在土体中的迁移能力降低.冻融循环是油水迁移的主要驱动力之一,随着冻融循环的增加,石油污染物和水分向上迁移并聚集,石油随土样高度增加逐渐减小,而水分随高度增加而增加且在一定的位置聚集.研究成果可为多年冻土区石油污染迁移过程和定量评价及防治治理提供重要基础和参考.