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微生态系统模拟
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  “微生态系统模拟”译为未确定词的双语例句
     Simulation of Microcosms of Two Strains Isolated from Contaminated Soil by 2,4-D for Population Dynamics and Substrate Degradation
     两个分离菌株对2,4-D降解效率的微生态系统模拟
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     Two strains, Sphingomonas paucimobilis 9256 and Ralstonia eutrophus JMP, isolated from contaminated soil, can effectively degrade 2,4 dichlorophenoxyacetic acid (2,4 D) in simulative microcosm system.
     在微生态系统模拟条件下 ,2个分离菌株Sphingomonaspaucimobilis 92 56 ,Ralstoniaeu trophusJMP表现出对除草剂 2 ,4 D的高效降解性能 .
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  相似匹配句对
     Simulation of distillation process
     精馏过程的模拟
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     Statistical Simulation
     统计模拟
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     Rumen Microbial Ecosystem
     瘤胃微生态系统
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     Simulation of Microcosms of Two Strains Isolated from Contaminated Soil by 2,4-D for Population Dynamics and Substrate Degradation
     两个分离菌株对2,4-D降解效率的微生态系统模拟
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     Developments in Microcosm Research
     微生态系统研究动态
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  microcosm simulation
The potential former-mediated reduction/volatilization of ionic mercury as a tool in the decontamination of a freshwater pond was evaluated using laboratory incubations and a microcosm simulation.
      
In Situ and Laboratory Microalgal Assays in the Tropics: A Microcosm Simulation of Edge-of-Field Pesticide Runoff
      


Aquatic Bioassay System (ABS) with some update techniques was made of four subsystems, i.e. experimentally supplementary system, purifying system, conditioned control system and bioassay system. The general principle of design was based on advanced technique, integrity and flexibility of device. ABS could used in both routine toxicity test and ecological simulation study. It could also be widly used in risk assessment on dangerous chemicals, ecological risk assessment of construction project, formulation of...

Aquatic Bioassay System (ABS) with some update techniques was made of four subsystems, i.e. experimentally supplementary system, purifying system, conditioned control system and bioassay system. The general principle of design was based on advanced technique, integrity and flexibility of device. ABS could used in both routine toxicity test and ecological simulation study. It could also be widly used in risk assessment on dangerous chemicals, ecological risk assessment of construction project, formulation of water criteria, wastewater discharge control etc. In this system, test species could be chosen freely from microorganisms to fish, and toxicity tests, for acute, chronic or subacute. Several physical element, such as light, temperature and flow could be controlled accurately, and is an effective technical measure for toxicant management.

借鉴国内外多种先进技术,建立了一个用于水生态毒理试验的实验系统。该系统由4部分组成:实验辅助子系统、净化子系统、条件控制子系统和生物检测子系统。总体设计原则为系统的完整性、技术先进性和装置灵活性。系统可供常规毒性试验和生态模拟研究两用,可应用于化学品危险性分析,建设项目生态风险评价,水质标准制定,综合废水排放控制,生态模拟研究等领域,也可进行从微生物到鱼类的急、亚急、慢性毒性试验,及微生态系统的模拟试验和生物行为研究。该系统对光、温、水流等物理因素有较高的控制水平,是环境毒物管理上颇为有效的技术手段。

Two strains, Sphingomonas paucimobilis 9256 and Ralstonia eutrophus JMP, isolated from contaminated soil, can effectively degrade 2,4 dichlorophenoxyacetic acid (2,4 D) in simulative microcosm system. In most situations strain Ralstonia eutrophus JMP was dominant population. The most important ecological factors affecting two strain population dynamics were microcosm moisture and substrate (2,4 D) concentration. There was a 24 hour time lag between population growth and 2,4 D degradation. Total...

Two strains, Sphingomonas paucimobilis 9256 and Ralstonia eutrophus JMP, isolated from contaminated soil, can effectively degrade 2,4 dichlorophenoxyacetic acid (2,4 D) in simulative microcosm system. In most situations strain Ralstonia eutrophus JMP was dominant population. The most important ecological factors affecting two strain population dynamics were microcosm moisture and substrate (2,4 D) concentration. There was a 24 hour time lag between population growth and 2,4 D degradation. Total population growth was not directly relative to quantity of substrate degraded by the strains. Multiple factors affect microcosm situation together. Some combined results revealed that the simulative microcosms are not very closed to the natural environment system.

微生态系统模拟条件下 ,2个分离菌株Sphingomonaspaucimobilis 92 56 ,Ralstoniaeu trophusJMP表现出对除草剂 2 ,4 D的高效降解性能 .但R eutrophusJMP能在更多的模拟条件下成为优势种群 .对 2个菌株的种群消长影响最大的生态因子是湿度和 2 ,4 D的浓度 .种群增长与 2 ,4 D降解有约 2 4h的时滞 ;种群的增长量不完全受底物 2 ,4 D消耗的多少制约 .多个生态因子的综合作用说明模拟的微生态系统离自然系统还有较大的差别 .

 
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