生物修复

  • 网络bioremediation;in-situ bioremediation;Ex situ bioremediation
生物修复生物修复
  1. 环境的PAHs污染及其生物修复技术研究进展

    Pollution of Polycyclic Aromatic Hydrocarbons ( PAHs ) in Environment and Its Bioremediation

  2. 类Fenton氧化处理生物修复残留物

    Elimination of Bioremediation Residues by Fenton-like Oxidation

  3. 地下水三氯乙烯(TCE)生物修复的研究进展

    Foreign Progression on Trichloroethylene ( TCE ) Bioremediation in Groundwater

  4. 地下水中BTEX的原位生物修复研究进展

    Progress of in-situ bioremediation of BTEX in groundwater

  5. 试验采用液可清(ACF32)对西坝河下游段进行生物修复。

    Bioremediation experiment was conducted on the downstream segment of Xiba River by Aqua Clean ACF32 .

  6. 环境中污染物降解基因的水平转移(HGT)及其在生物修复中的作用

    Horizontal Transfer of Environmental Pollutant - Degrading Gene and Application in Bioremediation

  7. 介绍了近年来多环芳烃污染物去除方法的研究现状,包括自然降解法、生物修复法、UV光解法、吸附法、高级氧化法及超声分解法等。

    In this paper , the research situation about the removal techniques of PAHs including the natural degradation , bioremediation , UV photolysis , adsorption , advanced oxidation processes ( AOPs ) and sonolysis are introduced detailedly .

  8. 16SRRNA的变性梯度电泳(DGGE)结果揭示了生物修复过程中土壤微生物菌群结构中的动态变化。

    Denaturing gradient gel electrophoresis ( DGGE ) of 16S rRNA genes revealed a dynamic change in the microbial community structure of the soil during bioremediation .

  9. 用生物修复技术来处理受铬污染的土壤,利用自然界中微生物,通过生物还原反应,将Cr(VI)还原成三价铬。

    Chromium - contaminated soil is treated by bio - remediation technology in this paper . Using microorganisms in nature , Cr ( VI ) can be reduced to Cr (ⅲ) by bio - reducing reaction .

  10. 利用Soxhlet抽提重量法评价重质油污染土层生物修复的进程,并探讨了微生物活性与石油污染物生物降解之间的关系。

    The bioremediation of the heavy-oils was evaluated by weighing after Soxhlet extraction to study the relationship between the microorganism activity and the hydrocarbon degradation .

  11. 采用吖啶橙荧光染色计数法和吸光度法,测定了不同温度、盐度、初始pH、溶解氧、接种量及不同培养基配方对虾池环境生物修复作用菌生长的影响。

    Influences of temperature , salinity , pH , soluble oxygen , inoculation volume and composition of medium on the growth of functional bacteria in bioremediation of shrimp culture environment were studied with acridine orange direct count ( AODC ) and light absorption methods .

  12. 丛枝菌根真菌(Glomuscaledonium)对铜污染土壤生物修复机理初探

    Influence of arbuscular mycorrhizal fungus ( Glomus caledonium ) on maize seedlings grown in copper contaminated soil

  13. 在第二章中,本文提出建立细胞模型,用MTT比色法研究高强度Nd:YAG和KTP倍频激光照射对单层人成纤维细胞的损伤及其生物修复过程。

    In the second part , with the help of MTT assay , monolayer human skin fibroblasts were used as models to study the damage effects of Nd : YAG and KTP laser irradiation .

  14. 综上所述,该染料厂的可能修复技术为生物修复、填埋、焚烧、MCD和热脱附等。

    To conclude , the possible remediation technologies for this dye plant are biological remediation , landfill treatment , incineration , MCD , thermal desorption and etc.

  15. 以玉米秸秆粉为原料经固体发酵制成T2-2生物修复剂;

    We prepared T2-2 bioremediation agents from crop straw through solid fermentation .

  16. 生物修复(Bioremediation)是近年来发展起来的用于治理环境污染的一门新技术,它主要是通过微生物的作用将环境中的有机污染物转化为CO2和H2O等无毒无害或毒性较小的物质。

    Bioremediation is a new technology of controlling environmental pollution in recent years . It can change organic pollutants of the environment into harmless CO2 and H2O and other non-toxic or less toxic substances through the role of microorganisms .

  17. 异化Fe(III)还原微生物具有强大的代谢功能,可还原许多有毒重金属包括一些放射性核素,还可降解利用许多有机污染物,在污染环境的生物修复中具有重要的应用价值。

    It has been found this multifunctional groups of microorganisms evolved with diverse metabolic ability reducing a variety of toxic heavy metals including some radioactive nuclear , degrading and utilizing a broad range of organic pollutants and showed an important value in the bioremediation of contaminated environment .

  18. 因而曲霉G21具备有机磷农药污染环境生物修复潜在的应用前景。

    Therefore , the Aspergillus G21 has the application potential in the bioremediation of contaminated environment by organophosphates pesticides .

  19. 两次实验说明,菌株F2006为降解胶质和沥青质的优势菌株,在生物修复中具有较好的应用前景。

    F2006 is the excellent microorganism to biodegrade resin and asphaltene and possess of good application prospect in bioremediation engineering .

  20. 此外,生物修复还可以显著地减少水中微型藻的细胞含量,对微型藻的抑制效率超过82%。就环境适应性而言,Spirogyra优于Cladophora。

    Moreover , the concentration of microalgae may be decreased by more than 82 % . For adaptability to environment , Spirogyra is superior to Cladophora .

  21. 依据太湖底泥的污染特性,疏浚深度以40~50cm为宜,并应为后续生物修复技术介入创造必要的生态环境条件。

    According to the characteristics of sediment pollution in Taihu Lake , the appropriate depth of dredging is 40 & 50 ? cm , and the dredging should create necessary environmental condition for the following ecosystem restoration .

  22. 生物修复的生物强化技术是治理石油烃污染的重要方法。

    Bioaugmentation technology is the main method in bioremeding petroleum pollution .

  23. 黄瓜连作障碍因子分析及其生物修复措施探讨

    Factors Analysis of Continuous Cucumber Cropping Obstacle and Its Preparatory Bioremediation

  24. 辽河油田石油污染土壤的2阶段生物修复

    Two Phases Bioremediation of Oil Contaminated Soil from Liaohe Oil Field

  25. 细菌对环境污染物的趋化性及其在生物修复中的作用

    Bacterial chemotaxis to environmental pollutants and it 's significance in bioremediation

  26. 地下水有机污染的生物修复技术及应用

    Bioremediation technology for groundwater contaminated by organic pollutants and its application

  27. 中原油田石油污染土壤生物修复技术研究

    Research on Bioremediation of Petroleum Contaminated Soils in Zhongyuan Oil Field

  28. 污染土壤原位生物修复中的多相流动传输特性

    Multiphase Flow and Transport Characteristic in In-Situ Bioremediation of Contaminative Soil

  29. 金属结合蛋白(肽)与环境重金属生物修复

    Metal-binding Proteins or Peptides in the Bioremediation of Environmental Heavy Metals

  30. 低温微生物及其在生物修复领域中的应用

    Application Prospects in the Study on Bioremediation by Cold - Microorganisms