运城市PM2.5时空分布特征和潜在源区季节分析

基于2019年3月～2020年2月环境空气质量监测数据,分析了运城市PM_2.5污染的时空分布特征,并利用HYSPLIT后向轨迹模型和聚类分析等方法探讨不同季节运城市PM_2.5污染的输送路径和潜在源区.结果表明,运城市ρ(PM_2.5)冬季最高(111.24μg·m^-3),夏季最低(30.02μg·m^-3),PM_2.5/PM₁₀秋冬季均大于0.6,表明运城市秋冬两季颗粒物污染以细颗粒物为主;空间上ρ(PM_2.5)年均值呈现北部和中部高、东部和西部低的分布特征,高值区PM_2.5与SO₂、 NO₂和CO呈显著强相关,表明本地排放对高值区ρ(PM_2.5)影响较大,春季和冬季最高值分别位于河津市(58.50μg·m^-3)和稷山县(142.33μg·m^-3),夏季最高值位于南部的平陆县(36.92...     

DEHP经sirt1/pgc-1a通路诱导的HepG2细胞线粒体损伤效应

为研究邻苯二甲酸二（2-乙基己基）酯（DEHP）是否通过sirt1/pgc-1a通路对细胞产生损伤效应， 通过体外培养HepG2细胞，在1.6， 8， 40， 200， 1000mmol/L DEHP处理24或48h后，采用CCK-8测定细胞活力，ATP试剂盒检测细胞内ATP含量，NO试剂盒检测细胞上清NO含量，ELISA试剂盒检测细胞上清炎症因子TNF-a、IL-6的含量；同时在DEHP作用于HepG2细胞24或48h后，用Western blot检测线粒体调控基因sirt1、pgc-1a，nrf1、tfam的蛋白表达.结果表明：不同浓度的DEHP处理24， 48h后，细胞活力在高剂量都呈显著下降趋势.DEHP能引起ATP含量的显著下降、炎症因子含量的显著提高，但NO含量无显著变化.4种线粒体调控基因的蛋白表达水平sirt1、pgc-1a，nrf1、tfam在24h时无显著变化.而在48h时，随着剂量增加蛋白含量呈上升后下降趋势，并且sirt1在8mmol/L呈显著上升趋势，随后每个蛋白都在1000mmol/L显著下降（P < 0.05）.DEHP能引起HepG2细胞氧化应激，并通过影响sirt1/pgc-1a信号通路表达来影响线粒体生物合成从而造成细胞损伤.     

Mitochondrial DNA depletion presenting prenatally with skin edema and multisystem disease immediately after birth

We describe two newborn sisters who presented in the third trimester with diminished fetal movements and skin edema, but with no other signs of hydrops fetalis. Within hours of birth, both developed profound lactic acidemia, followed by multi-organ failure. In muscle mitochondria, the activity of all enzymatic complexes that contain mitochondrial DNA (mtDNA)-encoded subunits was markedly decreased. Southern blot analysis revealed a profound reduction in the mtDNA/nuclear DNA ratio, implying mtDNA depletion. The prenatal identification of skin edema in two patients with mtDNA depletion, and its absence in a healthy sibling, suggest that skin edema should be regarded as a novel manifestation of mtDNA depletion. This finding shows that mtDNA depletion can present prenatally and, consequently, may aid the clinician in making a diagnosis, prenatally, of this genetic defect. Copyright © 2002 John Wiley & Sons, Ltd.     

节球藻毒素诱导鲫鱼巨噬细胞凋亡的机理研究

选用杂食性鲤科鲫鱼(Carassius auratus)为材料,采用离体细胞培养诱导方法,研究了节球藻毒素在低剂量暴露条件下对鲫鱼巨噬细胞的毒效应.流式细胞仪结果证实,节球藻毒素可以诱导细胞出现凋亡峰,阻滞细胞G0/G1期和S期,扰乱细胞周期.1、10、100μg·L-1节球藻毒素诱导12 h后,细胞凋亡率分别达到17.37%、27.59%、61.64%,而空白组的仅为3.72%.结果表明,100μg·L-1的节球藻毒素处理12 h后,胞内钙离子浓度比空白组提高了76.9%,而线粒体膜电位则下降了35.8%,氧化应激产物活性氧(ROS)和丙二醛(MDA)含量则分别为空白组的1.86、2.94倍,Caspase-3和Caspase-9酶活性升高为空白组的2.89、3.73倍,而Caspase-8的酶活性仅比空白组的升高了33.3%,上述细胞凋亡线粒体通路指标均呈现明显的剂量-效应特征.综上所述,节球藻毒素可以诱导鲫鱼巨噬细胞发生凋亡,表现为线粒体依赖型,进而可能影响鱼类免疫系统.     

湖南攸县典型煤矿和工厂区水稻田土壤镉污染特征及污染途径分析

为了解湖南攸县水稻田土壤镉污染特征及污染途径,选择煤矿区、煤矿工厂区和工厂区三类典型样地进行农田土壤、灌溉水渠底泥及典型含Cd工业产品和副产品如煤、煤矸石和水泥等介质中Cd含量的分析研究.结果表明:1三类样地农田和表层自然土壤以及灌溉渠底泥中的平均Cd含量都超过了土壤环境质量标准0.3 mg·kg-1,煤矿区和煤矿工厂区的煤矸石Cd含量以及工厂区的水泥Cd含量都与相应自然土壤中含量相似,工厂区Cd的大气沉降通量较高;2三类样地土壤Cd剖面垂直分布差异明显,煤矿区和煤矿工厂区0~40 cm剖面的农田土壤Cd较自然土壤高,煤矿区农田和自然土壤中的Cd垂直向下迁移的潜力较高;3煤矿工厂区和工厂区点源下风向农田表土Cd含量明显比上风向低;4攸县煤矿区和煤矿工厂区农田土壤Cd的灌溉水输入途径较为重要,而煤矿工厂区和工厂区农田土壤Cd的大气输入途径也较为明显.     

微生物在生物煤层气形成中的作用及影响因素研究进展

在当今能源紧缺和环境污染严重的前提下,煤层气作为一类非常规天然气,越来越受到人们的重视。传统观点认为煤层甲烷多由高温热解产生,但是根据甲烷的同位素特征来判断,世界很多地方(包括我国鄂尔多斯、淮南等地)的煤层气多属生物成因或者生物和热成因混合。同时,越来越多的生物学证据也表明种类多样的产甲烷相关微生物广泛存在于煤层伴生地层水中或者煤层样品中。这也说明生物成因的煤层气仍然在不断地产生,这也为利用生物方法促进煤层气产生和利用提供了良好的契机。本文将介绍产甲烷微生物种群构成与功能、产气途径、影响产气速率的因素,探讨我国微生物强化产煤层气并实现产业化的应用前景。     

"Fe0/优势脱氯菌"体系降解2,4,6-TCP特性及机制研究

采用批处理实验方式,对"Fe0/优势脱氯菌"体系降解2,4,6-TCP过程进行研究,探讨了零价铁与微生物的协同作用及其机制.结果表明,Fe0对微生物具有促进生长和界面富集的作用,"Fe0/优势脱氯菌"体系菌浓度(D600表示)是单独优势脱氯菌体系的约1.7倍,反应96 h铁表面有大量细菌附着生长,其形态呈现短杆状或类球状;Fe0腐蚀产生的OH-对体系酸化起平衡调节作用,在pH值7.0、Fe0浓度5 g.L-1、2,4,6-TCP浓度30 mg.L-1的初始条件下,体系pH值稳定在7.8左右,有利于2,4,6-TCP还原脱氯反应的进行和优势脱氯菌的生长;2,4,6-TCP的主要降解路径为2,4,6-TCP→2,4-DCP→4-CP.     

Biodegradation of N,N-dimethylacetamide by Rhodococcus sp. strain B83 isolated from the rhizosphere of pagoda tree

The biodegradation characteristic and potential metabolic pathway for removal of environmental N,N-dimethylacetamide (DMAC) by Rhodococcus sp. strain B83 was studied. Rhodococcus sp. strain B83 was isolated from the rhizosphere of a pagoda tree and proved capable of utilizing DMAC as sole source of carbon and nitrogen. Batch culture studies showed that strain B83 could tolerate up to 25 g/L DMAC and showed distinct growth on possible catabolic intermediates except for acetate. The nitrogen balance analysis revealed that approximately 71% of the initial nitrogen was converted to organic nitrogen. DMAC degradation has led to accumulation of acetate and organic nitrogen, meanwhile traces of nitrate and ammonia was build-up but without nitrite. The growth of strain B83 could be inhibited by adding exogenous acetate. By means of the assay of enzymatic degradation of DMAC, several catabolic intermediates at different intervals were observed and identified. Based on the results obtained from culture solution and enzymatic degradation assay, a detailed pathway is proposed for DMAC biodegradation.     

Characterization of N-nitrosodimethylamine formation from the ozonation of ranitidine

N-nitrosodimethylamine(NDMA) is an emerging disinfection by-product which is formed during water disinfection in the presence of amine-based precursors. Ranitidine, as one kind of amine-based pharmaceuticals, has been identified as NDMA precursor with high NDMA molar conversion during chloramination. This study focused on the characterization of NDMA formation during ozonation of ranitidine. Influences of operational variables(ozone dose, pH value) and water matrix on NDMA generation as well as ranitidine degradation were evaluated. The results indicate high reactivity of ranitidine with ozone.Dimethylamine(DMA) and NDMA were generated due to ranitidine oxidation. High pH value caused more NDMA accumulation. NDMA formation was inhibited under acid conditions(pH ≤ 5) mainly due to the protonation of amines. Water matrix such as HCO-3and humic acid impacted NDMA generation due to UOH scavenging. Compared with UOH,ozone molecules dominated the productions of DMA and NDMA. However, UOH was a critical factor in NDMA degradation. Transformation products of ranitidine during ozonation were identified using gas chromatography–mass spectrometry. Among these products, just DMA and N,N-dimethylformamide could contribute to NDMA formation due to the DMA group in the molecular structures. The NDMA formation pathway from ranitidine ozonation was also proposed.     

2,2',4,4'-四溴联苯醚高效好氧降解菌的鉴定及其降解路径

2,2',4,4'-四溴联苯醚(BDE-47)是环境和生物体中普遍检出且生物毒性较大的一种多溴联苯醚同系物.本研究从广东省贵屿镇电子垃圾拆解厂周边采集的农田土壤中分离出一株BDE-47的高效好氧降解菌GYP1,考察了其对BDE-47的降解性能、降解路径及不同的环境因素对菌株降解BDE-47的影响.根据菌株形态特征、16S r DNA基因序列及系统发育树分析,将该菌鉴定为伯克霍尔德菌(Burkholderia cepacia).结果表明,菌株GYP1在好氧条件下能够利用BDE-47为唯一碳源生长,在BDE-47初始质量浓度为1 mg·L~(-1)、温度为30℃、摇床转速为150r·min~(-1)的条件下避光培养4 d,该菌株对BDE-47的降解率可达到82.4%.菌株GYP1在15~35℃和p H=4.0~7.0的环境条件范围内对BDE-47均能保持良好的降解性能,但外加蔗糖、酵母粉、联苯醚等碳源会明显抑制其对BDE-47的降解.在菌株GYP1对BDE-47的降解过程中检测到6-OH-BDE-47、5-OH-BDE-47、4'-OH-BDE-17、2'-OH-BDE-3这4种羟基多溴联苯醚及2,4-二溴苯酚,证明菌株GYP1对BDE-47的好氧降解机理主要是羟基化过程.