微生物对环境中难降解有机污染物共代谢作用

对微生物共代谢途径的概念、机理、类型进行了综述,详细介绍了微生物共代谢作用在去除难降解有机污染物过程中所起到的重要作用,并对微生物共代谢作用降解有机污染物的关键因素及其应用价值做出分析。     

植物-微生物联合对环境有机污染物降解的研究进展

环境中有机污染物的过量积累对生态系统及人类健康造成严重威胁。近年来,许多学者研究发现植物-微生物联合作用对环境中有机污染物的去除及生态系统的修复具有非常显著的效果。本文主要从植物-内生菌、植物-菌根菌以及植物-根际微生物这三个层面详细阐述植物-微生物联合降解有机污染物的研究现状,分析植物-微生物在联合降解中的作用,揭示植物-微生物联合降解的机理。但就目前而言,植物-微生物联合降解有机污染物仍存在许多问题,植物-微生物联合降解有机污染物的机理及生态学效应仍不清楚。因此,还需要进一步探讨其潜在作用机制并加强应用实践,这将有助于污染生态系统的治理,促进环境可持续发展。     

微生物菌剂在污水处理中的应用

随着中国城镇化建设发展脚步的不断加快,城镇水污染问题日益严重,一定程度上影响了民众的身心健康,不利于中国生态经济建设的和谐健康发展。微生物菌剂的科学规范应用作为污水处理过程的重中之重,能够有效降解污水中的各类有机污染物,全面提升污水处理效果。文章进一步对微生物菌剂及其在污水处理中的应用展开了分析与探讨,旨在为掌握行之有效的菌剂构建方法提供参考意见。     

微生物降解农药的研究新进展*

农药中,尤其化学农药中高毒、高残留、难降解的农药是重要的环境污染物,而微生物治理农药污染是一项有效手段,几十年来,在这方面已进行了大量研究。从农药降解菌的种类、工程菌的构建、微生物降解农药的机理、降解特性、影响因素及应用效果等几方面综述了近年这些方面的研究进展,并提出农药微生物降解研究领域的发展趋势和有待进一步解决的问题。     

微生物降解农药研究的新进展

农药尤其是化学农药中高毒、高残留、难降解的农药是重要的环境污染物,而利用微生物治理农药所造成的环境污染是一项有效的手段。从降解农药的微生物的种类、工程菌的构建、微生物降解农药的机理、降解特性、影响因素及应用效果等多方面综述了近年来的研究进展,并提出了微生物降解农药研究领域的发展趋势和有待进一步解决的一些突出问题。     

微生物法在空气污染控制中的应用（Ⅰ）

近年来微生物法在空气污染治理中取得了许多成果．本文简要论述了微生物法对煤炭脱硫、除臭（Ｈ２Ｓ）和降解挥发性有机空气污染物（ＶＯＣＳ）的原理、工艺和应用现状与发展,为有关方面提供参考。     

微生物降解硝基芳香族化合物(NAC)的研究进展

硝基芳香族化合物是非常重要的有机化工原料,也是难降解有机污染物之一。相对于传统去除法,利用微生物矿化或非特异性的转化,使硝基芳香族化合物成为生物地化循环的一部分,从而降低对环境污染的修复手段更具有可持续性。本文综述了降解硝基芳香族化合物的微生物资源及其降解途径、降解机理、相关修复方式等的研究进展。     

土壤中高分子量PAHs微生物降解机理及影响因素研究进展

高分子量多环芳烃( HMW PAHs)分子结构复杂,疏水性强,是环境中广泛存在的难降解的有机污染物.微生物降解是去除HMW PAHs的主要途径.本文介绍了PAHs降解菌株的种类和降解机理,以及不同环境因子(营养元素、pH值、土壤结构、通气状况和复合污染)对HMW PAHs降解的影响,提出HMW PAHs污染土壤的进一步研究的方向与重点,旨在为HMW PAHs污染修复研究和微生物降解机理研究提供参考.     

微生物降解持久性有机污染物的研究进展与展望

持久性有机污染物（POPs）是伴随着人类工业化发展而产生的合成类污染物,具有高毒性、持久性、长迁移性和高生物富集性等特点,POPs污染物的微生物降解一直是环境科学与技术应用领域的研究热点。微生物降解技术修复POPs污染环境具有无二次污染、成本低、快速简便等优点,拥有广泛的应用前景。本文论述了各种POPs微生物分解代谢的最新研究进展,包括降解性微生物资源以及降解机制。此外,还讨论了计算生物学、合成生物学、基因组学等技术在POPs微生物降解中的潜力和应用,以期为环境中持久性有机污染物的修复提供参考。     

微生物强化修复石油污染土壤的研究进展

微生物修复被认为是去除石油污染物和修复石油污染土壤的一种经济、高效且无二次污染的绿色清洁技术。受土壤环境条件和石油污染物性质等因素制约,土壤中土著石油降解微生物常存在数量不足、活性偏低、生长缓慢等问题,导致修复效果不佳、修复周期偏长。微生物强化修复技术可有效提高微生物降解效能,通过投加具有降解效能的功能菌株或菌剂、营养物质、表面活性剂、生长基质及固定化微生物等手段,可改善提升土著微生物对石油污染土壤的修复效果。文中梳理了已报道的石油降解微生物的种类,总结了微生物修复石油污染土壤的主要影响因素,阐述了微生物强化修复石油土壤的多种有效策略,提出了微生物强化修复石油污染的未来发展方向。     

Short-term effects of wildfire on microbial biomass and abundance in black pine plantation soils in Turkey

Measurement of soil microbial biomass and abundance offers a means of assessing the response of all microbial populations to changes in the soil environment after a fire. We examined the effects of wildfire on microbial biomass C and N, and abundance of bacteria and fungi 2 months after a fire in a pine plantation. Soil organic carbon (C_org), total nitrogen (N_tot), and electrical conductivity (EC) increased following the fire. In terms of microbial abundance, the overall results showed that burned forest soils had the most bacteria and fungi. Microbial biomass C and N from soil in the burned forest were not significantly different from their unburned forest counterparts. However, microbial indices indicated that fire affects soil microbial community structure by modifying the environmental conditions. The results also suggested that low-intensity fire promotes microorganism functional activity and improves the chemical characteristics of soils under humid climatic conditions.     

Microbial extracellular polymeric substances: central elements in heavy metal bioremediation

Extracellular polymeric substances (EPS) of microbial origin are a complex mixture of biopolymers comprising polysaccharides, proteins, nucleic acids, uronic acids, humic substances, lipids, etc. Bacterial secretions, shedding of cell surface materials, cell lysates and adsorption of organic constituents from the environment result in EPS formation in a wide variety of free-living bacteria as well as microbial aggregates like biofilms, bioflocs and biogranules. Irrespective of origin, EPS may be loosely attached to the cell surface or bacteria may be embedded in EPS. Compositional variation exists amongst EPS extracted from pure bacterial cultures and heterogeneous microbial communities which are regulated by the organic and inorganic constituents of the microenvironment. Functionally, EPS aid in cell-to-cell aggregation, adhesion to substratum, formation of flocs, protection from dessication and resistance to harmful exogenous materials. In addition, exopolymers serve as biosorbing agents by accumulating nutrients from the surrounding environment and also play a crucial role in biosorption of heavy metals. Being polyanionic in nature, EPS forms complexes with metal cations resulting in metal immobilization within the exopolymeric matrix. These complexes generally result from electrostatic interactions between the metal ligands and negatively charged components of biopolymers. Moreover, enzymatic activities in EPS also assist detoxification of heavy metals by transformation and subsequent precipitation in the polymeric mass. Although the core mechanism for metal binding and / or transformation using microbial exopolymer remains identical, the existence and complexity of EPS from pure bacterial cultures, biofilms, biogranules and activated sludge systems differ significantly, which in turn affects the EPS-metal interactions. This paper presents the features of EPS from various sources with a view to establish their role as central elements in bioremediation of heavy metals.     

两相系统在疏水性有机污染物高效降解菌富集培养中的应用研究进展

环境中疏水性有机污染物(Hydrophobic organic pollutants,HOPs)的浓度日益增加,获取HOPs高效降解功能微生物能有效提高HOPs污染治理效率。近年来,利用两相系统促进HOPs微生物降解转化的研究已取得一定进展。本文重点从两相系统的结构特点及其富集HOPs降解功能微生物的原理、主要影响因素和应用情况等方面进行综述,并在此基础上对两相系统在毒害性HOPs微生物加速降解脱毒中所存在的主要问题及其应用前景进行讨论和展望。     

Effects of dilution on dissolved oxygen depletion and microbial populations in the biochemical oxygen demand determination

The biochemical oxygen demand (BOD) value is still a key parameter that can determine the level of organics, particularly the content of biodegradable organics in water. In this work, the effects of sample dilution, which should be done inevitably to get appropriate dissolved oxygen (DO) depletion, on the measurement of 5-day BOD (BOD₅), was investigated with and without seeding using natural and synthetic water. The dilution effects were also evaluated for water samples taken in different seasons such as summer and winter because water temperature can cause a change in the types of microbial species, thus leading to different oxygen depletion profiles during BOD testing. The predation phenomenon between microbial cells was found to be dependent on the inorganic nutrients and carbon sources, showing a change in cell populations according to cell size after 5-day incubation. The dilution of water samples for BOD determination was linked to changes in the environment for microbial growth such as nutrition. The predation phenomenon between microbial cells was more important with less dilution. BOD₅ increased with the specific amount of inorganic nutrient per microbial mass when the natural water was diluted. When seeding was done for synthetic water samples, the seed volume also affected BOD due to the rate of organic uptake by microbes. BOD₅ increased with the specific bacterial population per organic source supplied at the beginning of BOD measurement. For more accurate BOD measurements, specific guidelines on dilution should be established.     

微生物菌剂施用对设施茄子根际土壤养分和细菌群落多样性的影响

[背景]设施茄子连作种植和化学肥料过量施用造成土壤养分失衡、微生物多样性降低、土传病害严重等土壤质量问题,微生物制剂是改善土壤环境质量的一项重要措施。[目的]确定微生物菌剂施用对设施茄子根际土壤养分及细菌群落多样性的影响。[方法]在河北省农林科学院鹿泉大河实验园区,以含有哈茨木霉和巨大芽孢杆菌的微生物菌剂为供试菌剂,采用传统的化学分析方法测定微生物菌剂处理和对照茄子开花期、拉秧期土壤的养分含量;采用稀释涂平板方法测定土壤可培养微生物的数量;采用高通量测序技术测定土壤细菌16S rRNA基因V3-V4区,分析处理和对照土壤的微生物多样性和群落分布规律。[结果]与对照相比,微生物菌剂处理提高了茄子开花期和拉秧期的根际土壤养分含量,拉秧期微生物菌剂处理根际土壤中全氮、碱解氮、有效磷、速效钾含量分别较对照增加13.85%、21.07%、31.51%和55.94%;施用微生物菌剂能够改变土壤可培养微生物的数量和构成,微生物菌剂处理土壤中细菌、真菌、放线菌的数量均显著增加,其中细菌、放线菌在微生物总量中所占比例增加,而真菌的占比则有所降低。微生物菌剂处理能够提高土壤微生物的Shannon指数、降低Simpson指数,ACE指数和Chao1指数差异不显著,表明微生物菌剂能够增加土壤的微生物群落多样性,对微生物群落丰富度影响不明显。从目水平上分析菌剂处理和对照的微生物组成,发现微生物菌剂处理增加了土壤中黄单胞菌目(Xanthomonadales)、红螺菌目(Rhodospirillales)、鞘脂杆菌目(Sphingobacteriales)、芽孢杆菌目(Bacillales)、纤维黏网菌目(Cytophagales)、假单胞菌目(Pseudomonadales)等优势菌目的占比,降低了伯克氏菌目(Burholderiales)、黄杆菌目(Flavobacteriales)等病原菌的占比。微生物菌剂的施入能够促进茄子营养生长,增加茄子的产量,增幅为18.52%。[结论]微生物菌剂作为一种新型环保肥料,具有改善土壤营养状况、增加土壤可培养微生物数量、提高土壤微生物多样性的作用,该结果为微生物菌剂的合理施用提供了科学依据。     

不同形态微生物菌剂对不结球白菜生长和品质的影响

合理施用微生物菌剂可显著改善蔬菜土壤环境,增加产量,提升品质。本试验以不结球白菜为供试材料,在设施条件下设置不施微生物菌、施用液态和固态微生物菌剂处理,研究不同形态微生物菌剂对不结球白菜生长和品质的影响。结果表明: 施用液态和固态微生物菌剂均能显著提高土壤脲酶活性,增加植株全氮含量,增大叶面积,显著提升叶片SPAD值,提高叶片净光合速率,产量比不施微生物菌剂处理分别增加26.9%和34.4%。同时,施用微生物菌剂可提高不结球白菜的总酚和抗坏血酸含量,显著降低硝酸盐含量。可见,合理施用微生物菌剂可促进不结球白菜产量的提升和品质的改善。不同形态微生物菌剂中,液态微生物菌剂时效快,固态微生物菌剂长效性好,可根据土壤肥力情况酌情配施有机肥或无机肥以促进蔬菜的优质高产。     

微生物固定化及其在环境污染治理中的应用研究进展

微生物固定化技术广泛应用于食品、轻化以及环保领域,其具有微生物密度高、生物活性好、环境适应性强、可反复利用等优点。本文对微生物固定化技术进行了概述,并通过典型案例重点阐释了其在水、土和大气等环境污染治理领域的应用进展。在水环境中,固定化载体可为不同类型微生物提供生存微环境和各自所需的生态位,提高了系统负荷和处理效能;在土壤环境中,其重要作用在于提高土壤中污染物的生物有效性,从而提升微生物修复效果;空气污染治理领域则更注重载体的机械强度及气液传质能力的提高。本文比较总结了微生物固定化技术在不同环境治理领域中的应用特点和优势,以期为今后的环境污染治理提供一定的参考。     

台湾的微生物防治

化学防治自1940年代后虽然为农业和医界害虫防治带来许多的经济效益。相对的。因其对非标的生物(有益生物,野生生物．家畜及农场操作人员)有毒害作用．及其残留量(residue)可在空气中．土壤,水中发现．又可经作物带给消费。也使我们得考虑其安全性．     

用于分析微生物种类组成的微生物生态学研究方法

对环境中微生物群落进行分析对于理解该环境中各类微生物的功能具有重要意义,因此日益受到重视。用于环境中微生物群落分析的方法很多,将简要介绍基于PCR的研究方法,原位杂交技术,基因芯片技术,宏蛋白质组学技术等研究方法的原理、应用及其优缺点。     

From Metchnikoff to Monsanto and beyond: the path of microbial control

In 125 years since Metchnikoff proposed the use of Metarhizium anisopliae to control the wheat cockchafer and brought about the first field trials, microbial control has progressed from the application of naturalists' observations to biotechnology and precision delivery. This review highlights major milestones in its evolution and presents a perspective on its current direction. Fungal pathogens, the most eye-catching agents, dominated the early period, but major mycological control efforts for chinch bugs and citrus pests in the US had questionable success, and interest waned. The discoveries of Bacillus popilliae and Bacillus thuringiensis began the era of practical and commercially viable microbial control. A program to control the Japanese beetle in the US led to the discovery of both B. popilliae and Steinernema glaseri, the first nematode used as a microbial control agent. Viral insect control became practical in the latter half of the 20th century, and the first registration was obtained with the Heliothis nuclear polyhedrosis virus in 1975. Now strategies are shifting for microbial control. While Bt transgenic crops are now planted on millions of hectares, the successes of more narrowly defined microbial control are mainly in small niches. Commercial enthusiasm for traditional microbial control agents has been unsteady in recent years. The prospects of microbial insecticide use on vast areas of major crops are now viewed more realistically. Regulatory constraints, activist resistance, benign and efficacious chemicals, and limited research funding all drive changes in focus. Emphasis is shifting to monitoring, conservation, integration with chemical pesticides, and selection of favorable venues such as organic agriculture and countries that have low costs, mild regulatory climates, modest chemical inputs, and small scale farming.