生物基因技术修复石油污染土壤研究进展

植物修复油污土壤是控制环境污染的有效途径,但在实际应用中存在着植物生物量较小、生长缓慢等不足。将具有修复功能的外源基因引入植物中,使转基因植物的生物修复功能大大增强,为解决土壤石油污染问题提供了有效手段。文章系统论述了转基因植物对石油污染土壤中有机污染物,尤其是对持久性有机污染物（POPs）的吸收、转化和降解作用以及近年来所取得的突破性进展,并指出了利用生物基因修复技术进行土壤石油污染研究的发展趋势。     

转基因植物对有机污染物的吸收、转化和降解

有机污染物是土壤、水体和大气环境的重要污染物.利用和加强植物修复作用是控制环境污染的有效途径.近年来,一些具有修复功能的外源基因被陆续引入到植物中,使转基因植物的生物修复能力大大增强.文章介绍了植物对污染环境中有机污染物,尤其是持久性有机污染物(POPs)的吸收、转化和降解作用,阐述了转基因植物用于被污染环境修复方面的研究进展和应用前景.     

蚯蚓在有机污染土壤生物修复中的作用机理与应用

蚯蚓的各类活动能够改善土壤理化性质,提高土壤微生物活性,引入高效降解菌等,直接或间接地促进有机污染物在土壤中的降解和转化。其中蚓触圈是有机污染物降解的热点区域。此外,生物富集也是蚯蚓修复土壤有机污染的重要机理之一。研究表明,蚯蚓能够促进土壤中多种有机污染物的降解,在土壤有机污染生物修复方面具有广阔的应用前景。本文综述了蚯蚓在土壤有机污染生物修复中的作用机理及在修复多环芳烃、多氯联苯、农药等污染土壤方面的应用,指出当前研究存在的不足,并对未来研究进行展望,以期为土壤有机污染生物修复提供参考和依据。     

根际圈在污染土壤修复中的作用与机理分析

根际圈以植物根系为中心聚集了大量的生命物质及其分泌物,构成了极为独特的“生态修复单元”。本文叙述了根在根际圈污染土壤修复中的生理生态作用,富集、固定重金属,吸收、降解有机污染物等功能;菌根真菌对根际圈内重金属的吸收、屏障及螯合作用,对有机污染物的降解作用;根际圈内细菌对重金属的吸附与固定,对有机污染物的降解作用以及根际圈真菌和细菌的联合修复作用等,同时对可能存在的机理进行了分析,认为根际圈对污染土壤的修复作用是植物修复的重要组成部分和主要理论基础之一,并指出利用重金属超富集植物修复重金属污染土壤具有广阔的应用前景;筛选对水溶性有机污染物高吸收富集及其根 发泌能力强的特异植物,同时接种利于有机污染物降解的专性或非专性真菌和细菌可能会成为有机污染土壤植物修复研究的重要方向之一。     

持久性有机污染土壤的植物修复及其机理研究进展

随着人类对化学品的依赖程度越来越高,环境的有机污染状况也越来越严重.有机污染土壤的植物修复是指利用植物在生长过程中,吸收、降解、钝化有机污染物的一种原位处理污染土壤的方法,具有应用成本低、生态风险小、对环境副作用小等特点.本文综述了近年来国内外有机污染土壤的植物修复研究进展情况,重点介绍了多氯联苯、多环芳烃、农药和硝基芳香化合物等持久性有机污染物的植物修复,阐述了有机污染土壤植物修复的关键机制,并分析了该技术在实际工程应用中的局限性及应考虑的因素.最后,指出了今后该领域的重点研究方向.     

丛枝菌根对有机污染土壤的修复作用及机理

丛枝菌根(AM)是丛枝菌根真菌(AMF)与植物根系相互作用的互惠共生体,能改良土壤结构,增强植物抗性.自然界中已知的AMF有170多种,分布广泛,且可与大多数植物共生.利用AM修复有机污染土壤正成为一个崭新的研究方向.本文综述了AM对多环芳烃、酞酸脂、石油和农药等一些典型有机污染物污染土壤的修复作用.AM修复有机污染土壤的机理主要包括:AMF代谢有机污染物;AM分泌酶,降解污染物;AM影响根系分泌作用,并促进根际微生物对有机污染物的降解;AMF宿主植物吸收积累污染物.AM修复研究中,高效AMF的筛选、复合菌种效应、土壤老化、AM作用下植物对有机污染物的吸收积累等几方面仍有待于深入研究.     

内生菌协同宿主植物修复土壤复合污染的研究进展

土壤复合污染日益严重,危及植物生长及人类发展,寻找修复土壤复合污染的有效方法已经成为环境领域的优先事项。复合污染指同一环境中存在两种或两种以上的污染物,分为复合重金属污染、复合有机污染物污染及重金属-有机污染物复合污染。近些年发现内生菌能定殖在植物中,并且被感染的植物不会引起任何外在病症,其主要通过促进宿主植物生长,改变植物摄取污染物能力和酶促降解污染物等方法增强植物修复能力。本文综述了具有复合重金属和复合有机污染抗性的内生菌种类及其作用机制,并展望了内生菌协同宿主植物修复环境中复合污染物的研究方向。     

多环芳烃污染土壤生物修复研究进展

多环芳烃 (Polycyclic aromatic hydrocarbons,PAHs) 是一类广泛分布于环境中的持久性污染物,结构稳定、难以降解,对生态环境和生物具有“三致”毒害性,其环境去除和修复备受关注。绿色、安全、经济的生物修复技术被广泛应用于PAHs污染土壤的修复。本文从土壤中PAHs的来源、迁移、归趋和污染水平总结了目前我国土壤多环芳烃污染的基本状况;归纳了具有PAHs降解作用的微生物、植物种类及机理;比较了微生物修复、植物修复和联合修复3类主要的生物修复技术。指出植物与微生物的互作机理的解析,抗逆菌株、植株的筛选与培育,实际应用的安全和效能评估应成为多环芳烃污染土壤修复领域未来的研究方向。     

有机污染环境的植物修复研究进展

分析了近年来国内外的文献资料,对有机污染物污染环境的植物修复研究进展作了综述。植物能通过根系从环境中吸收和积累PCBs、PAHs等有机污染物,并将吸收的TNT、TCE及有机农药降解为高极性产物、水和CO2;另一方面植物根际可促进有机污染物的根际生物吸收与,使植物对有机污染环境的修复效果更明显。文中探讨了有机污染环境的植物修复技术的优势、问题与未来的研究。     

有机污染土壤中菌根的作用

近年来,土壤有机污染问题日益突出,传统的修复方法存在局限性。菌根是植物根系与菌根真菌形成的共生体,能增强植物的逆境抗胁迫能力,对于促进有机污染物的降解和转化具有积极的作用。本文主要阐述了石油、多环芳烃、多氯联苯、农药和酞酸酯等几类典型的有机污染土壤中外生菌根和丛枝菌根的作用;旨在说明利用菌根技术修复有机污染土壤是生物修复的一项重要工具,具有广阔的发展前景,为进一步研究菌根的作用以及更好地运用菌根技术奠定基础。     

Precipitation and the transfer of water, nutrients and pollutants in tree canopies

The functioning of a forest community depends upon the routes, rates and transformations of material flowing through it. The canopy's interaction with precipitation can result in the interception of rainfall and the scavenging of water from clouds and fog. But this movement of water through the canopy also mediates the transfer of mineral nutrients and the deposition of some atmospheric pollutants. The past decade has seen the development of increasingly complex models of transfer processes in the canopy and new methodologies for studying them. One impulse for these advances has been the need to understand not only the movement of water, nutrients and pollutants but also their reciprocal effects. Another has been the need to evaluate the nature of pollutant-induced effects with respect to the costs and effectiveness of possible remedies.     

The developing framework of marine ecotoxicology: Pollutants as a variable in marine ecosystems?

Marine ecosystems include a subset in which at least some interrelated geochemical, biochemical, physiological, population and community characteristics are changed by pollutants. Moderate contamination is relatively widespread in coastal and estuarine ecosystems, so the subset of ecosystems with at least some processes affected could be relatively large. Pollutant influences have changed and will probably continue to change on time scales of decades. Biological exposures and dose in such ecosystems are species-specific and determined by how the species is exposed to different environmental media and the geochemistry of individual pollutants within those media. Bioaccumulation models offer significant promise for interpreting such exposures. Biological responses to pollutants need to be more directly linked to exposure and dose. At the level of the individual this might be improved by better understanding relationships between tissue concentrations of pollutants and responses to pollutants. Multi-discipline field and laboratory studies combined with advanced understanding of some basic processes have reduced the ambiguities in interpreting a few physiological/organismic responses to pollutants in nature. Recognition of pollutant-induced patterns in population responses could lead to similar advances. A rational framework for ecotoxicology is developing, but its further advance is dependent upon better integration of ecotoxicology with basic marine ecology and biology.     

Exposing culprit organic pollutants: a review

There is a continuing need for monitoring the health of the environment due to the presence of pollutants. Here, we review the development and attributes of biosensors by which bacteria have been genetically modified to express the luminescence genes, i.e. to glow, in a quantified manner, in response to pollutants. We have concentrated on the detection of organic hydrocarbon pollutants and discussed the molecular mechanisms by which some of these chemicals act as effector molecules on the respective regulatory systems. The future of environmental biosensors is predictably bright. As more knowledge is gathered on the sensing regulatory component, the possibility of developing targeted or pollutant-specific biosensors is promising. Moreover, the repertoire of biosensors for culprit organic pollutants is expected to be enlarged through advances in genomics technology and identification of new sensory or receptor molecules. The need for pollutant detection at concentrations in the parts per trillion range or biosensors configured in a nanoscale is anticipated.     

Quantitative analysis of polychlorinated biphenyls, organochlorine insecticides, polycyclic aromatic hydrocarbons, polychlorinated hydrocarbons and polynitrohydrocarbons in spiked samples of soil, water and plasma by selected-ion monitoring gas chromatography–mass spectrometry

A broad range of pollutants such as polycyclic aromatic hydrocarbons (PAHs), polychlorinated hydrocarbons (PCHs), polynitrohydrocarbons (PNHs), polychlorinated biphenyls (PCBs) and organochlorine (OCs) insecticides were simultaneously analyzed in spiked soil, water or plasma samples by using gas chromatography–mass spectrometry (GC–MS). Water and plasma samples containing the pollutants were extracted by a solid-phase extraction (SPE) method using florisil columns. The soil samples, fortified with the toxicants, were extracted with water, methanol or dichloromethane (DCM). The water extract was processed by the SPE method. The methanol and DCM samples were dried, dissolved in acetonitrile and subjected to the SPE extraction. The extracted samples were analyzed by GC–MS programmed to monitor selected ions. The deuterium labelled compounds were used as the internal standards. The chromatographic profile of total ions indicated complete separation of some compounds such as isophorone, naphthalene, all PCBs, most OC insecticides and PNHs; high M_r PAHs and some PCHs were partially or incompletely separated. The chromatographic profile of individual ion indicated good separation of each ion. The minimum detection limit ranged from 1 to 4 pg injected when 1 or 2 ions were monitored or from 20 to 200 pg injected when 20 ions were monitored. The SPE method that provided 60–105% recovery of pollutants from water samples, provided only 2–60% recovery from plasma samples. This may be due to the binding of pollutants to plasma proteins. Water recovered 1–30%, while methanol or DCM recovered 65–100% of the pollutants added to the soil samples. The use of internal standards corrected for the loss of pollutants from plasma or soil.     

植被过滤带的研究和应用进展

水资源的人为污染日趋严重.植被过滤带被认为是降低水体污染、特别是非点源污染的最佳措施之一.植被过滤带是位于污染源和水体之间的带状植被区域,其可以使地表径流中的污染物被沉降、过滤、稀释、下渗和吸收.本文综述了植被过滤带的发展历史、结构、污染控制机理和在实际应用当中的设计、经营管理及效益等方面的研究进展.我国对植被过滤带的研究还处于初始阶段,试验或应用结果都很少,因此,需要扩展和加深这方面的研究,取得相关的试验数据,以使这一生态技术更有效地在我国推广和应用.     

流域景观格局与河流水质的多变量相关分析

流域内的景观格局改变是人类活动的宏观表现,会对河流水质产生显著影响,因此明确影响水质变化的关键景观因子,对于深入了解景观对水质的影响机制具有重要的研究价值。选择广东省淡水河流域为研究对象,以2007年ALOS卫星影像以及水质监测数据为基础,运用空间分析和多变量分析方法,分析淡水河流域景观格局与河流水质的相关关系。用包括流域和河岸带尺度的景观组成和空间结构信息的景观指数表征景观格局,用Spearman秩相关分析、多元线性逐步回归模型和典型相关分析(CCA)研究景观指数和水质指标的相关关系。研究结果表明:林地、城镇用地和农业用地占淡水河流域总面积超过90%,其中城镇用地超过20%。多元线性逐步回归分析和CCA结果说明水质指标受到多个景观指数的综合影响,反映了景观格局对水质的复杂影响机制。流域景观格局对河流水质有显著影响,流域尺度的景观指数比河岸带尺度的景观指数对水质影响更大。城镇用地比例是影响耗氧污染物和营养盐等污染物浓度最重要的景观指数,林地和农业用地对水质的影响较小。另外,景观破碎化对pH值、溶解氧和重金属等水质指标有显著影响。CCA的第一排序轴解释了景观指数与水质指标相关性的54.0%,前两排序轴累积能解释景观指数与水质指标相关性的87.6%,前两轴分别主要表达了城市化水平和景观破碎化水平的变化梯度。淡水河流域的景观格局特征从上游到下游呈现出城市—城乡交错—农村的景观梯度,水质变化也对应了这个梯度的变化,说明人类活动引起的流域土地覆盖及土地管理措施变化会对水质变化产生显著影响。     

Effects of air pollutants on the wintertime water economy of the Scots pine Pinus silvestris

The changes effected by air-borne pollutants in the wintertime water economy of the Scots pine were investigated in industrial and urban environments in Oulu (65°N). Pine needles were found to undergo a wintertime water stress, which was more intense in the polluted area than in the less polluted environment. The water stress of the needles was found to be the more severe, the more pollutants had accumulated in the needles. In the needles of the trees growing in the polluted area, transpiration started shortly after they had been brought into laboratory even at midwinter, but the healthy trees were not equally sensitive in their response. When the weight loss of branches was observed in outdoor conditions, it was noted that the branches brought from the polluted area lost weight more rapidly than the branches of the healthy area. Air-borne pollutants hence constitute an obvious additional risk to the wintering of plants, particularly their water economy.     

宜昌运河公园多塘型城市绿地水质水量调控效果及运行研究

对建成运行多年的宜昌运河公园中的多塘进行了监测,分析了它的水量水质的调控效果并结合现场观察和访谈总结了公园管理运行中的经验。主要结论有:1)多塘通过蓄滞和释放达到削减洪峰和延迟洪峰的效果,串联形式的多塘形成了多级的调蓄作用。2)多塘对高浓度污染物有较好的削减作用,污染物浓度较低时削减作用不明显;从沿程去除效果来看,多塘前半部分污染物去除率高,后半部分去除率低或为负;在停止运行状态下,蓄积在塘中的水体24 h后污染物含量会增加。3)公园经过长时间的运行和使用,最初的设计目标出现了简化、丢失和改变的情况,但这也使景观变得丰富和多样。     

五大连池矿泉水的微生物特征和生态健康效应

矿泉水是地下水从含水层中经长期与岩石相互作用形成、富含有益于人体的丰富矿物质和微量元素的一类顶级饮用地下水资源.在水资源污染严重而且生态环境不断恶化的今天,基于新的科技认知手段重新认识矿泉水的生态和健康效应,具有重要意义.黑龙江省五大连池风景区拥有着五大连池旅游疗养业赖以生存和发展的优质矿泉水资源,并且被应用于医疗和保健方面已有百余年历史,但是面临着资源量减少、环境污染等问题的威胁.本文主要针对五大连池矿泉水的形成过程、分布规律、水化学和微生物特征及其健康效应等进行综合评述,侧重其微生物特征的研究进展,提出了未来五大连池矿泉的研究展望.为了更好地保护和利用五大连池矿泉水,建议五大连池周边农场发展绿色生态农业,减少化肥的施用;在开发旅游和疗养资源的同时,要严格建立污染风险的评估和管控体系,减少“新型”环境污染物对地质生态环境的可能污染.