排序方式: 共有165条查询结果,搜索用时 31 毫秒
71.
五氯酚(PCP)是一种广泛存在于环境中的有机污染物。利用土壤跳虫(Folsomia candida)作为受试生物,研究了不同浓度的PCP暴露下细胞色素P450(CYP450)基因、谷胱甘肽转移酶(GST)基因和蜕皮相关基因表达水平的变化。结果显示,PCP暴露下,跳虫CYP450基因Fcc01651、Fcc02155、Fcc03650和GST基因Fcc04073、Fcc05260的表达水平未发生显著变化。在PCP浓度为240 mg·kg-1时,跳虫GST基因Fcc00494的表达显著上调。在PCP浓度为120 mg·kg-1和240 mg·kg-1时,几丁质酶基因Fcc00881和几丁质结合域基因Fcc01306的表达受到显著抑制。研究结果可为评价PCP暴露对跳虫的毒性提供一定依据。 相似文献
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Chuanqi Li Qianqian Li Dongge Tong Qingliang Wang Mingge Wu Bohua Sun Guijin Su Li Tan 《环境科学学报(英文版)》2020,32(7):1-12
Volatile organic compounds (VOCs) are major contributors to air pollution. Based on the emission characteristics of 99 VOCs that daily measured at 10 am in winter from 15 December 2015 to 17 January 2016 and in summer from 21 July to 25 August 2016 in Beijing, the environmental impact and health risk of VOC were assessed. In the winter polluted days, the secondary organic aerosol formation potential (SOAP) of VOC (199.70 ± 15.05 μg/m3) was significantly higher than that on other days. And aromatics were the primary contributor (98.03%) to the SOAP during the observation period. Additionally, the result of the ozone formation potential (OFP) showed that ethylene contributed the most to OFP in winter (26.00% and 27.64% on the normal and polluted days). In summer, however, acetaldehyde was the primary contributor to OFP (22.00% and 21.61% on the normal and polluted days). Simultaneously, study showed that hazard ratios and lifetime cancer risk values of acrolein, chloroform, benzene, 1,2-dichloroethane, acetaldehyde and 1,3-butadiene exceeded the thresholds established by USEPA, thereby presenting a health risk to the residents. Besides, the ratio of toluene-to-benzene indicated that vehicle exhausts were the main source of VOC pollution in Beijing. The ratio of m-/p-xylene-to-ethylbenzene demonstrated that there were more prominent atmospheric photochemical reactions in summer than that in winter. Finally, according to the potential source contribution function (PSCF) results, compared with local pollution sources, the spread of pollution from long-distance VOCs had a greater impact on Beijing. 相似文献
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环境水体中存在众多可解离的有机污染物,而不同的解离形态表现出相异的环境行为,如光化学反应活性和归趋.本文以土霉素(OTC)为例,研究了水中可解离化合物的表观光降解、光氧化等复合光化学转化动力学,并揭示了其相应的环境光化学归趋和贡献.模拟日光(λ290nm)照射下,OTC的光降解遵循准一级反应动力学,光解速率常数(k)对pH表现出明显的依赖性.这是由于随pH值升高,解离形态(i)从OTCH_2~0、OTCH~-到OTC~(2-)渐变,相应的k_i和量子产率(Φ_i)显著增大.竞争动力学实验进一步表明,·OH和~1O_2均可以氧化降解OTC,且降解速率随着pH的增大而加快.这与3种解离形态不同的去质子化程度和氧化反应活性有关.去质子化增加化合物的电子密度,利于活性氧物种的亲电攻击,从而促进光氧化反应.基于以上OTC解离形态的不同光化学转化活性,评估了环境表层水体(pH=6~9)中的复合光化学转化半减期(t_(1/2,E)).t_(1/2,E)值依赖于基质pH和季节,北纬45°晴天正午,t_(1/2,E)在0.131 h(仲夏,pH=9)到3.63 h(仲冬,pH=6)之间.多数情况下,OTC的表观光解是其最主要的光化学转化途径,~1O_2氧化次之,而·OH氧化的贡献非常小.以上结果证明了OTC不同解离形态具有不同的光化学转化动力学.因此,为了准确评价水环境中抗生素等可解离有机污染物的光化学归趋和风险,有必要综合考虑所有解离形态的复合光化学行为. 相似文献
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从生态监管对生态质量评价的需求角度梳理了我国生态监测的现状及存在问题,分析了我国构建生态质量监测网络的必要性,并从网络建设目的、原则、空间布局、监测内容和工作机制等5个方面提出了国家生态质量监测网络的构建思路,最后指出"十四五"期间国家生态质量监测网络的重点任务,即开展生态质量综合观测站建设并进行生态功能相关监测和评估研究,开展生态质量监测样地系统建设并进行生态系统结构组成监测,从引导生态保护修复的科学性和提高自然生态用地利用效率出发开展生态质量监测和评价的尝试,建成天-空-地一体化的生态质量监测与预警体系。 相似文献
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Qianqian Du Yujing Mu Chenglong Zhang Junfeng Liu Yuanyuan Zhang Chengtang Liu 《环境科学学报(英文版)》2017,29(1):146-156
Photochemical production of carbonyl sulfide(COS),carbon disulfide(CS_2) and dimethyl sulfide(DMS) was intensively studied in the water from the Aohai Lake of Beijing city.The lake water was found to be highly supersaturated with COS,CS_2 and DMS,with their initial concentrations of 0.91 ± 0.073 nmol/L,0.55 ± 0.071 nmol/L and 0.37 ± 0.062 nmol/L,respectively.The evident photochemical production of COS and CS_2 in the lake water under irradiation of 365 nm and 302 nm indicated that photochemical production of them might be the reason for their supersaturation.The similar dependence of wavelength and oxygen for photochemical production of COS,CS_2 and DMS implied that they might be from the same precursors.The water cage effect was found to favor COS production but inhibit CS_2and DMS formation,indicating that COS photochemical production was mainly from direct degradation of the precursors and the formation of CS_2 and DMS needed intermediates via combination of carbon-centered radicals and sulfur-centered radicals.The above assumptions were further confirmed by simulation experiments with addition of carbonyls and amino acids(cysteine and methionine),and the photochemical formation mechanisms for COS,CS_2 and DMS in water were derived from the investigations. 相似文献
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Tao Wang Zhonghuan Xi Minmin Wu Qianqian Zhang Shiqi Sun Jing Yin Yanchi Zhou Hao Yang 《环境科学学报(英文版)》2017,29(5):118-128
This paper focused on the pollution characteristics,sources and lung cancer risk of atmospheric polycyclic aromatic hydrocarbons(PAHs) in a new urban district of Nanjing,China.Gaseous and aerosol PM_(2.5)(particulate matter with aerodynamic diameter smaller than2.5 urn) samples were collected in spring of 2015.Sixteen PAHs were extracted and analyzed after sampling.Firstly,arithmetic mean concentrations of PAHs and BaP_(eq)(benzo[a]pyrene equivalent) were calculated.The mean concentrations of PAHs were 29.26±14.13,18.14±5.37 and 48.47±16.03 ng/m~3 in gas phase,particle phase and both phases,respectively.The mean concentrations of BaP_(eq) were 0.87±0.51,2.71±2.17 and 4.06±2.31 ng/m~3 in gas phase,particle phase and both phases,respectively.Secondly,diagnostic ratios and principal component analysis were adopted to identify the sources of PAHs and the outcomes were the same:traffic exhaust was the predominant source followed by fuel combustion and industrial process.Finally,incremental lung cancer risk(ILCR) induced by whole year inhalation exposure to PAHs for population groups of different age and gender were estimated based on a Monte Carlo simulation.ILCR values caused by particle phase PAHs were greater than those caused by gas phase PAHs.ILCR values for adults were greater than those for other age groups.ILCR values caused by total(gas + particle) PAHs for diverse groups were all greater than the significant level(10~6),indicating high potential lung cancer risk.Sensitivity analysis results showed that cancer slope factor for BaP inhalation exposure and BaP_(eq) concentration had greater impact than body weight and inhalation rate on the ILCR. 相似文献
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Yanhui Zhao Qianqian Li Xue Miao Xinchen Huang Binke Li Guijin Su Minghui Zheng 《环境科学学报(英文版)》2017,29(5):174-183
Hexabromocyclododecanes(HBCDs),a new type of persistent organic pollutants widely used as brominated flame retardants,have attracted wide attention due to their increasing level and toxicity. A method based on high-performance liquid chromatography mass spectrometry(HPLC–MS–MS)in electrospray ionization mode has been developed by optimization of various parameters,which effectively improved the separation degree and responsive intensity of α-,β-and γ-HBCD isomers. The concentrations and distribution profiles of three HBCD isomers were investigated in sediments from the Haihe River in China.It was observed that the concentrations of HBCDs varied in the range of 0.4–58.82 ng/g,showing a decreasing trend along the flow direction,possibly due to attenuation and biodegradation along the flow direction of the Haihe River. The distribution profile of α-,β-,γ-HBCD was 7.91%–88.6%,0–91.47%,and 0.62%–42.83%,respectively. Interestingly,α-HBCD dominated in most sample sites. This was different from the distribution profile in commercial industrial products,which might be attributed to the inter-transformation and different degradation rates of the three HBCD isomers. The potential ecological risk of HBCDs in sediment was characterized under the two-tiered procedure of the European Medicines Evaluation Agency for environmental risk assessment. Although the HBCDs in the selected section of the Haihe River presented "no risk" in the sediment compartment,its risk in sediment cannot be neglected since sediment is one of the important sinks and reservoirs of pollutants. 相似文献
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