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苯环由14C标记合成的麦草畏除草剂,厌氧降解反应至第7天,转化率达64%,有14C标记的CO2产生;第16天,转化率达91%,出现一种主要的中间代谢产物,有CH4产生;第27天,转化率达95%,仍然只有一种主要的中间代谢产物.麦草畏苯环的断裂量仅占总量的2.96%,转化成CO2的为0.74%,转化成CH4的为0.11%.在降解27d中,主要中间代谢产物是3,6-二氯水杨酸,占麦草畏总量的92.04%.3,6-二氯水杨酸的苯环没有被打开,可生化性极低,仍然继续污染环境研究结果为控制麦草畏对人体健康危害,进行生物修复工程,提供了重要的参考依据. 相似文献
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味精废水中重金属及金属污染对处理利用的影响 总被引:1,自引:0,他引:1
本文应用等离子光谱(ICP)测试三个厂家味精生产废水中21种金属元素的水平,其中金属元素的总水平分别达19192mg.l^-1,3190mg.l^-1和3161mg.l^-1,对照国内外有关的四项水质标准,三厂家味精生产废水中存在着Fe,Zn等多种重金属或其他金属元素严重超标现象,味精生产废水对青芋存在急性毒性,24,48,72和96h的半致死味精废水浓度LC50分别为6.9%,3.2%,2.5% 相似文献
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螺旋藻的应用价值及环境保护功能 总被引:8,自引:0,他引:8
本文综述了螺旋藻的基本特性,营养价值,药用价值及开发利用现状,着重讨论了螺旋藻的能源价值和在环境污染净化中的作用,展望了应用发展前景。 相似文献
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对低浓度氟利昂11气体在浸渍活性炭 (浸渍炭) 上的吸脱附行为进行了研究。考察了不同的气流比速和气流湿度条件对氟利昂11在浸渍炭床层吸附穿透的影响,利用Wheeler方程和Yoon-Nelson方程描述了吸附动力学过程。探讨了脱附温度、气流比速及床层含水率等影响因素对氟利昂11脱除效果的影响机制,运用LDF和Freundlich脱附动力学模型对脱附过程进行了描述。结果表明:氟利昂11在浸渍炭上的吸附动力学主要受外扩散控制,确定了其1%穿透时间与气流比速的定量关系;气流湿度对氟利昂11吸附行为的影响体现在与水分子发生竞争吸附,从而导致穿透曲线出现卷起现象;氟利昂11的脱附速率大小与脱附温度、气流比速和床层含水率呈正相关;当脱附温度为25~30 ℃,气流比速为0.8 L·min−1·cm−2时为最佳机械泄露测试脱附条件。本研究可为有毒有害气体净化用固定床吸附装置的设计,以及机械泄露非破坏性检验应用方法的建立参考。 相似文献
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The degradation kinetic parameters in terephthalic acid (TPA) wastewater for the hybrid strains of Fhh and Fhhh obtained through the protoplast fusion of the fungi Phanerochaete chrysosporium (PC) and Saccharomyces cerevisiae Y99, and the native bacteria YZ1 were measured in this research. The highest level of the specific degradation rate for Fhhh and Fhh during 20h reaction were 0.2238 and 0.2163 h‐1, which were higher than that of their three parental strains and that of the anaerobic bacteria reported. It suggested that the abilities of growth and degradation for Fhh and Fhhh in TPA wastewater were better than their three parental strains. They could create potentials for the purification of TPA wastewater with higher efficiency. 相似文献
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Mice were fed with source water (SW) and tap water (TW) for 90 d to evaluate hepatotoxicity induced by the drinking water. Histopathologic observation showed no obvious damage to hepatic tissue in the SW and TW groups. However, microarray analysis indicated that the SW and TW exposures affected many metabolic pathways, among which PPAR (peroxisome proliferator-activated receptors) signaling was most susceptible. Immunohistochemical staining demonstrated that both PPAR-α and PPAR-γ were significantly increased in the exposure groups compared to control. Enzyme-linked immunosorbent assay revealed that PPAR-α expression level was increased from 23.37±0.53 ng g(-1) liver weight in control group to 26.60±1.43 ng g(-1) liver weight in SW group and 27.68±1.10 ng g(-1) liver weight in TW group (p<0.05). For PPAR-γ, the expression level was also significantly enhanced from 0.83±0.07 ng g(-1) liver weight in control group to 1.11±0.20 ng g(-1) liver weight in SW group and 1.16±0.07 ng g(-1) liver weight in TW group (p<0.05). The SW and DW posed no obvious hepatotoxicity on mice and PPAR-α/-γ could be used as a novel biomarker to assess public health risk induced by slightly contaminated drinking water. 相似文献