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冀鲁 《辽宁城乡环境科技》2009,(8):63-63
霾是一种自然天气现象,好似笼罩在城市上空的雾纱,又称“大气棕色云”。霾的定义是:“大量极细微的干尘粒等均匀地浮游在空中,使水平能见度小于10千米的空气普遍有混浊现象,使远处光亮物微带黄、红色,使黑暗物微带蓝色。”有人把灰霾天气误认为是雾,其实这两者是不同的。一般来讲,雾和霾的区别主要在干与湿上,在于空气中水分含量的大小:当空气中水分含量达到90%以上的叫雾;低于80%的叫霾;80%~90%之间的是雾和霾的混合物,但主要成分是霾。霾作为一种自然现象,其形成主要有3方面因素。一是空气的水平流动很弱,使得水平方向小风与静风现象增多。二是大气层垂直方向出现的逆温现象。 相似文献
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上海市土壤放射性水平的调查 总被引:4,自引:0,他引:4
随着生产的发展和技术的进步,上海市核电和放射性物质的应用,愈益广泛。放射性三废排放后,可通过一系列复杂的转移而形成对环境本底及人类健康的影响。土壤是环境转移放射性的重要介质之一。其放射性水平的资料,对环境保护和预防医学均具有重要意义。 1 自然概况上海地处长江三角洲东南端,位于北纬30°41′~31°53′,东经120′51′~122°12′。面积6186km~2,市区为5.7%,郊县为93.5%(其中水域为0.8%)。上海地势平坦,海拔高度约4米,仅西南部有少数零星的由岩浆岩构成的小丘。按陆地成形史,东部为滨海平原;西部为湖、海积平原;北部的崇明、长兴、横沙等岛屿,为三角洲平原。它们的面积分别为全市总面积的51.9%、30.5%、17.6%。 相似文献
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城市重污染河道上覆水氮营养盐浓度及DO水平对底质氮释放的影响 总被引:12,自引:8,他引:12
利用模拟试验方法, 研究和探讨了苏州市古城区重污染河道上覆水的氮营养盐浓度及DO水平对河道底泥内源氮释放的影响.结果表明:① 上覆水体的氮营养盐水平可对底泥中氮营养盐的释放程度(即释放速率和释放量)产生影响,氮营养盐含量低的上覆水体有利于底泥中氮特别是氨氮的释放(外城河与苗家河2种处理的累积释放量差值可达6 mg/kg),相反,则不利于氨氮的释放.故当氮营养盐含量较低的外城河水进入古城区河道时,有可能引起内城河道中底泥氨氮的大量释放,这种情况在调水过程中更为明显;②溶解氧是控制底泥氮释放规律的重要因素,其对氨氮和硝态氮释放的影响呈非线性,厌氧条件能加速底泥氨氮的释放,好氧则对其释放产生抑制,故保持河道水体中适当的溶解氧可有效抑制底泥中氨氮等释放造成的污染. 相似文献
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本研究以模式动物斑马鱼(Danio rerio)为受试生物,采用半静态水体暴露的方式研究了不同浓度壬基酚聚氧乙烯醚(NPEO)对斑马鱼雄性成鱼下丘脑-垂体-性腺轴(HPG轴)的影响.结果显示,考察浓度范围内的NPEO暴露可以显著上调斑马鱼脑中GnRH2、GnRHR1、GnRHR2、GnRHR4、FSHβ和LHβ基因,以及性腺中LHR基因的相对表达量.GnRHR和LHR基因表达量对较低浓度NPEO暴露较为敏感,其中GnRHR4和LHR基因表达量在低至0.001mg/L的NPEO暴露下即出现显著上调.0.1和10mg/L NPEO暴露可以显著抑制斑马鱼精巢中CYP17基因的表达量,而10mg/L NPEO暴露则可以显著诱导CYP19a基因的表达量.GnRH相关调控基因表达量的上调,表明NPEO暴露可以诱导下丘脑分泌GnRH,进而刺激垂体分泌GtH.NPEO暴露诱导CYP19a基因的表达,促进了内源雌激素的合成.同时,NPEO通过抑制CYP17表达,可能抑制睾酮(T)的合成,干扰斑马鱼精巢中原有的性激素平衡.斑马鱼精巢内雌激素水平升高负反馈给垂体,刺激垂体分泌促性腺激素.由此表明,考察浓度范围内(0.001~10mg/L)的NPEO的暴露可以影响雄性斑马鱼成鱼HPG轴的反馈调节. 相似文献
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为探究孕激素左炔诺孕酮(LNG)对鱼类脂质代谢的影响,将刚孵化的稀有鮈鲫仔鱼置于0.8和6.5ng/L LNG暴露6个月至性成熟,考察其生长指标、肝脏组织病理学变化、脂质和脂蛋白含量及脂质代谢相关基因的表达情况.结果显示:(1)0.8,6.5ng/L LNG暴露显著降低70dph稀有鮈鲫的体重和肥满度,且6.5ng/L LNG暴露显著降低180dph雌、雄鱼的体长或体重;(2)0.8,6.5ng/L LNG暴露导致180dph成鱼肝脏出现细胞空泡、肝细胞肿胀等损伤;(3)0.8,6.5ng/L LNG暴露显著降低180dph雌鱼肝脏中甘油三酯、胆固醇的含量,且6.5ng/L LNG暴露显著降低雌鱼血浆中甘油三酯的含量,但对雄鱼肝脏及血浆的脂质含量无显著影响;(4)0.8,6.5ng/L LNG暴露显著降低180dph雌鱼肝脏中脂肪酸合成酶基因(fasn) mRNA的表达水平,且6.5ng/L LNG暴露显著降低180dph雄鱼肝脏中fasn及乙酰辅酶A羧化酶基因(acaca) mRNA的表达水平.由此可见,LNG长期低剂量暴露可抑制稀有鮈鲫的生长、诱导肝细胞损伤、引起肝脏和血浆脂质含量发生性别差异性变化,并影响肝脏中脂质代谢相关基因的表达,表明LNG在低浓度下可干扰稀有鮈鲫的脂质代谢,提示LNG对鱼类种群具有较高的潜在生态风险. 相似文献
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为了更加准确评估城市生活污水的综合生物毒性以及处理工艺对污水毒性的削减状况,本研究通过发光菌急性毒性、遗传毒性、雌激素活性检测方法对A~2/O工艺处理前后污水的毒性进行评价,同时通过斑马鱼暴露实验分析污水和回用水对水生生物内分泌干扰效应的作用模式.结果表明,污水厂进水具有较强的急性毒性、遗传毒性以及雌激素活性,水质较差.经二级生物处理后,上述毒性显著性降低,污水厂出水水质提高.但污水出水雌二醇当量为1.89 ng·L-1,仍可能会对受纳水体的水生生物产生潜在危害.浓缩2.5倍的水样导致雄性斑马鱼肝脏的卵黄原蛋白基因(vtg1)和雌激素受体基因(esr1)的表达水平显著上升,由此可以得出污水可通过干扰目的基因的表达来调控水生生物的内分泌活动.而esr1基因在肝脏的表达被抑制说明污水可能具有抗雌激素作用,同时反映进行生物毒性效应分析时应从多个组织或器官考虑,以获得比较全面的信息. 相似文献
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为了探讨氟对鱼类的生殖毒性效应,以成年斑马鱼为试验对象,氟化钠暴露45 d和90 d后,运用组织切片观察斑马鱼性腺组织的发育情况,采用酶联免疫分析法测定性腺中雌二醇(Estradiol,E2)、卵黄蛋白原(Vitellogenin,VTG)和睾酮(Testosterone,T)的含量,并使用实时荧光定量PCR方法检测斑马鱼生殖相关基因的表达水平.结果显示:氟暴露会阻滞成年斑马鱼性腺发育,造成卵泡发育不良,精巢生精能力下降;同时降低雌性斑马鱼性腺中E2和VTG的含量,增加T的含量;雌性斑马鱼孕酮受体(Prg)和糖皮质激素受体(GR)基因相对表达量随氟浓度的增加呈先降后升的趋势,随着染毒剂量与时间的增加,雄激素受体(AR)基因相对表达量逐渐增加,而CYP19a基因相对表达量逐渐减少.雄性斑马鱼性腺中E2、VTG、T的含量及生殖相关基因表达的变化趋势则与雌性斑马鱼相反.综上所述,氟暴露可以通过影响斑马鱼体内性腺发育、E2、VTG、T含量及生殖相关基因表达来影响其生殖功能.实验结果可为进一步研究氟化物对水生动物的生殖毒性效应提供理论依据. 相似文献
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为探讨邻苯二甲酸二(2-乙基己基)酯(DEHP)的代谢产物邻苯二甲酸单-2-乙基己酯(MEHP)对海水青鳉胚胎的内分泌干扰效应,本研究调查了海水青鳉胚胎受精后暴露于MEHP(0.01,0.1,和1 mg/L)直至胚胎发育晚期-受精后10 d(10 dpf),采用实时定量反转录聚合酶链反应(qRT-PCR)分析MEHP对内分泌干扰标志通路雌激素受体(ER)、过氧化物增殖激活受体(PPAR)通路和芳香化酶(CYP19)基因的影响。结果显示:MEHP对海水青鳉胚胎存活和孵化没有显著影响,而各MEHP处理组显著诱导了编码雌激素受体(ERα)和PPAR受体(PPARα和PPARγ)的基因表达水平,0.01和1 mg/L MEHP显著诱导了雌激素受体(ERγ)基因表达水平。MEHP暴露显著增加卵黄蛋白原(VTG)两个亚型-VTG1、VTG2,卵壳前体蛋白(Choriogenin,Chg)两个亚型-ChgH、ChgL,芳香化酶(CYP19)-CYP19a、CYP19b的基因表达水平。然而,MEHP暴露对海水青鳉胚胎编码雄激素受体的基因雄激素受体α亚型(androgen receptor α,ARα)的表达水平无显著影响。说明MEHP可通过上调芳香化酶CYP19的表达增加雄激素向雌激素的转化,增加的雌激素通过血液循环扩散进入靶组织和细胞结合雌激素受体ERs,导致ERs的上调(ERα和ERγ),使得雌激素受体激活、二聚化并结合大多数雌激素响应基因如VTG和Chg的雌激素响应元素(EREs),增加雌激素响应基因VTG和Chg的表达,增加VTG和Chg的合成从而产生内分泌干扰效应。 相似文献
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全氟辛烷磺酸(PFOS)对斑马鱼卵黄蛋白原mRNA水平的影响 总被引:3,自引:2,他引:1
为了研究环境低剂量全氟辛烷磺酸(perfluorooctane sulfonate,PFOS)对水生生物的内分泌干扰效应和可能的作用机制,测定了PFOS对斑马鱼(Brachydanio rerio)肝脏中卵黄蛋白原(vitellogenin,VTG)mRNA水平的影响.将斑马鱼暴露于4个PFOS的环境低剂量浓度组(0.1、1、10、100μg.L-1)中进行21d毒性试验,收集肝脏样品,提取RNA,采用荧光定量PCR(qRT-PCR)分别检测VTG1和VTG3的mRNA水平.结果表明:①PFOS暴露引起雄性斑马鱼肝脏VTG1和VTG3 mRNA水平升高,VTG1 mRNA水平升高与剂量呈正相关,在100μg.L-1暴露浓度处与对照组呈现显著性差异;VTG3的mRNA水平变化与剂量呈倒U型曲线,呈现典型的毒物刺激荷尔蒙效应,在10和100μg.L-1暴露浓度处与对照组呈现显著性差异;②PFOS暴露引起雌性斑马鱼肝脏中VTG1 mRNA水平升高,在10μg.L-1暴露浓度处与对照组呈现显著性差异,但在高浓度(10和100μg.L-1)处试验结果误差较大;VTG3 mRNA水平只在10μg.L-1暴露浓度处升高,但相比于对照组均没有显著性差异.试验结果表明PFOS暴露对斑马鱼的内分泌干扰作用明显,其毒性作用机制可能是类雌激素效应,而肝脏中VTG1和VTG3mRNA水平可能作为PFOS内分泌干扰效应评价的敏感生物标志物,但VTG1和VTG3 mRNA水平的响应曲线呈现基因亚型和性别差异. 相似文献
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Perfluorononanoic acid (PFNA) is a nine-carbon perfluoroalkyl acid widely used in industrial and domestic products. It is a persistent organic pollutant found in the environment as well as in the tissues of humans and wildlife. There is a concern that this chemical might be a developmental toxicant and teratogen in various ecosystems. In the present study, the toxic effects of PFNA were evaluated in zebrafish (Danio rerio) embryos. One hour post-fertilization embryos were treated with 0, 25, 50, 100, 200, 300, 350, and 400 μmol/L PFNA for 96 hr in 6-well plates. Developmental phenotypes and hatching rates were observed and recorded. Nineteen genes related to oxidative stress and lipid metabolism were examined using Quantitative RT-PCR and confirmed by whole mount in situ hybridization (WISH). Results showed that PFNA delayed the development of zebrafish embryos, reduced the hatching rate, and caused ventricular edema and malformation of the spine. In addition, the amount of reactive oxygen species in the embryo bodies increased significantly after exposure to PFNA compared with that of the control group. The Quantitative RT-PCR and WISH experiments demonstrated that mRNA expression of the lfabp and ucp2 genes increased significantly while that of sod1 and mt-nd1 decreased significantly after PFNA exposure. The mRNA expression levels of gpx1 and mt-atp6 decreased significantly in the high concentration group. However, the mRNA expression levels of both ppara and pparg did not show any significant variation after exposure. These findings suggest that PFNA affected the development of zebrafish embryos at relatively low concentrations. 相似文献
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Effects of p,p'-DDE exposure on gonadal development and gene expression in Japanese medaka (Oryzias latipes) 总被引:1,自引:0,他引:1
Although 1,1-dichloro-2,2-bis(p-chlorophenyl)-ethylene (p,p'-DDE),the major and most persistent metabolite of dichlorodiphenyl-trichloroethane (DDT),was continually detected in wild fishes that showed abnormal gonad development such as intersex,little is known about the impact of p,p'-DDE exposure on gonad development in fishes.To survey the effects of p,p'-DDE on gonadal development and gene expressions,male juvenile (20-d post hatch) Japanese medaka (Oryzias latipes) was exposed to 1,5,20,and 100 μg/L p,p'-DDE for two months.Increased hepatosomatic index (HSI) and decreased gonadosomatic index (GSI) were found in the p,p'-DDE-treated groups.Intersex was found in 100 μg/L p,p'-DDE exposure group,as well as 100 ng/L 17α-ethynylestradiol (EE2)group.By quantitative real-time RT-PCR,it was found that gene expressions of vitellogenins (VTG-1,VTG-2),choriogenins (CHG-H,CHG-L),and estrogen receptor α (ER-α) in the liver of the fish were significantly up-regulated by p,p'-DDE exposure.VTC-1 and VTG-2 were recommended as the preferred biomarker for assessing anti-androgenic p,p'-DDE because they were the highest up-regulated among the genes and showed good dose-response relationship.The up-regulated ER-α suggested that a potential synergetic effect would occur when p,p'-DDE coexists with other ER-α-binding endocrine-disrupting chemicals (EDCs). 相似文献
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Rita Maurício Flávia Semedo Rita Dias João P. Noronh Leonor Amaral Michiel A. Daam António P. Mano Mário S. Diniz 《环境科学学报(英文版)》2020,32(3):1-8
Increasing concerns have been raised on endocrine disrupting chemicals like the sex hormone 17α-ethinylestradiol (EE2), the more since traditional wastewater (WW) treatments appear to be ineffective for their removal. The efficacy of the relatively novel disinfectant peracetic acid (PAA) in EE2 removal was evaluated, as well as its potential effects on WW quality parameters. The treatments tested for EE2 removal were also evaluated in terms of toxicity, through the determination of biochemical responses (antioxidant enzymes, lipid peroxidation and vitellogenin induction) using zebrafish (Danio rerio) as a biological model. PAA contact times less than 20 min appeared insufficient regardless of the PAA dose tested, but a 100% EE2 removal was attained at a PAA concentration of 15 mg/L with a contact time of 20 min. Total suspended solids, chemical oxygen demand and pH in PAA treatments remained well within levels set in European legislation for WW discharge. EE2 induced significant increased vitellogenin (VTG) levels in both female and male fish, indicating increased estrogenic activity, especially in males suggesting an endocrine disruption effect. With the addition of PAA (15 mg/L), however, VTG levels in both sexes returned to control values. Although this PAA treatment showed increased levels of the antioxidant enzyme catalase, the lipid peroxidation levels were similar or even lower than in controls. Overall the results suggest that the use of PAA appears a promising way forward as a less toxic alternative to chlorine disinfection with high efficiency in the removal of EDC like EE2. 相似文献