岩溶地下河水中多环芳烃、脂肪酸分布特征及来源分析

为探究重庆青木关岩溶地下河水中多环芳烃(PAHs)和脂肪酸的含量组成、分布特征、来源及污染水平,2013年雨季和旱季分别于地下河中进行水样采集,并利用气相色谱-质谱联用仪(GC-MS)对水样中PAHs和脂肪酸的组分进行定量分析.结果表明,青木关地下河水中PAHs和脂肪酸的含量范围分别为77.3~702 ng·L~(-1)和3 302~45 254 ng·L~(-1).组成上,PAHs以2~3环为主,其比例高于90%,脂肪酸碳数范围为C10~C28,以饱和直链脂肪酸为主,其次为单不饱和脂肪酸.分布特征上,雨季:地下河水中各采样点PAHs的含量差异较小,脂肪酸的含量在入口、出露处和出口呈现依次降低的趋势,其中出露处和出口脂肪酸的含量较为接近;旱季:地下河水中PAHs含量在入口、出露处和出口呈现先降后升的趋势,脂肪酸含量在各采样点较为接近.总体上,地下河水中PAHs和脂肪酸的含量都表现为雨季显著高于旱季.来源分析表明,青木关地下河水中PAHs主要来源于该河流域煤和木材、农作物秸秆等生物质的燃烧;脂肪酸主要来自该河流域内硅藻、绿藻等水生藻类和细菌,其中以水生藻类的贡献占主导.地下河水受到PAHs中轻度污染,相对于旱季,雨季污染更严重.     

亚热带红壤丘陵区浅层地下水氮淋失特征研究

土壤养分累积引起的氮素(N)淋失是导致农区地下水污染的重要原因,也是农业面源污染的重要形式.本文以湖南省长沙县典型亚热带红壤丘陵流域为研究对象,通过连续定位观测,研究了林地、稻田、菜地和茶园4种代表性土地利用类型浅层(130~150 cm)地下水中N浓度的逐月动态变化特征.连续3年(2010—2013年)的观测结果表明:4种土地利用类型下浅层地下水总氮(TN)平均浓度差异显著(p0.05),其中,林地最低(0.85 mg·L-1),茶园最高(7.64 mg·L-1);从N的形态构成来看,林地、菜地和茶园浅层地下水中N形态以硝态氮(NO-3-N)为主,分别占TN的46.7%、70.2%和72.8%,而稻田浅层地下水N形态则以铵态氮(NH+4-N)为主,占TN 43.5%,表明土壤淹水条件是影响地下水N淋失形态的关键因子.地下水各形态N浓度的动态变化在不同土地利用下也迥然不同:林地地下水各形态N的含量低、变幅小,而稻田、菜地和茶园地下水N浓度变幅较大;采用单因子方法对不同土地利用下地下水的水质进行评价,结果表明:研究区浅层地下水中TN和NO-3-N无显著污染,NH+4-N污染较为严重,而综合指数法(F值法)进一步表明研究区浅层地下水污染主要出现在稻田和茶园,因此,控制稻田和茶园N肥的施用量是预防亚热带红壤丘陵区地下水N污染的关键.     

2018年冬季淄博市一次沙尘天气颗粒物污染特征研究

2018年11月底淄博市经历了一次沙尘影响下的大气重污染过程,为研究此次重污染过程形成机制,分析了淄博市ρ(PM₁₀)和ρ(PM_2.5)及PM_2.5化学组分特征,并利用PMF模型和后向轨迹模型对颗粒物的来源进行研究.结果表明:①污染期间,ρ(PM₁₀)和ρ(PM_2.5)小时平均值分别为(259±111)和(133±51)μg/m3,分别是污染后ρ(PM₁₀)〔(88±38)μg/m3〕和ρ(PM_2.5)〔(36±14)μg/m3〕的2.9和3.7倍.②受沙尘的影响,Ca2+、Mg2+、Al、Mg、Ca、Si等代表沙尘源的离子和元素组分的质量浓度在PM_2.5中占比均高于污染后.③ 72 h后向轨迹结果表明,除受西北方向沙尘传输气流影响外,局地盘旋的当地气流也增加了污染物的累积,此次大气污染过程是本地污染物累积及西北沙尘传输共同作用形成的.④ PMF模型解析表明,污染期间扬尘源是PM_2.5的首要贡献源类,贡献率达33.61%,说明沙尘过境对此次污染过程有较大贡献;污染后工业源贡献显著增高,成为主要污染源,贡献率为22.71%,体现了淄博市是重工业城市的特点.研究显示,淄博市此次重污染过程颗粒物来源复杂,除受本地区域污染影响外,外来沙尘过境贡献也较大.      

某石油化工园区秋季VOCs污染特征及来源解析

利用快速连续在线自动监测系统对某典型石油化工园区2014年秋季(9、10、11月)大气中VOCs进行监测,并对其组成、光化学反应活性、时间变化特征和来源进行解析.结果表明:秋季大气中VOCs的混合体积分数明显高于国内外其他城市和工业地区,且烷烃是大气中VOCs的最主要成分.研究区秋季3个月份大气中VOCs的混合体积分数之间差异不显著,但各种烃类的日夜变化特征明显:烷烃、烯烃和芳香烃呈现"单峰单谷"变化趋势,乙炔的变化趋势呈"W"型.PMF受体模型解析结果表明主要来源于天然气交通及溶剂、炼油厂的泄漏或挥发等过程,其次为其他交通来源,沥青对于研究区VOCs来源也有一定的贡献.等效丙烯体积和最大臭氧生成潜势对VOCs的光化学反应活性计算结果表明,烯烃和烷烃分别是各自混合体积分数的最主要的贡献者.     

青海滩间山金矿床地质特征及其铅同位素组成的地质意义

滩间山金矿床产于中元古界蓟县系万洞沟群碳质糜棱片岩和华力西晚期侵入岩中。该金矿床天在热水沉积、区域变质和热变质预富集的基础上，与区域绿片岩相脆韧性剪切变形变质带的退化演化同步，经历了脆韧性、韧脆性和脆性剪切变形成矿阶段的演化，井遭受华力西晚期侵入岩浆活动的叠加改造而形成的。矿区地层、侵入岩、矿石及黄铁矿的铅同位素组成表现出良好的亲缘关系，较清楚地反映了地层和侵入岩浆活动对成矿物质的贡献。     

膜生物反应器中进水组成对膜污染的影响

研究了膜生物反应器中进水组成对膜污染的影响. 结果表明, 相对于正常组成来说进水中限氮或限磷引起的膜污染程度更重, 尤以进水中限氮时更为严重. 系统缺氮或缺磷时, 污泥絮体的相对憎水性和膜的憎水性增加, 使得膜和污泥之间的憎水相互作用增强, 加速了污染物在膜表面的沉积和/或吸附. 另外, 进水中限氮或限磷时, 污泥中丝状菌的数量增加, 把颗粒污泥捆扎、束缚在其立体网状结构中, 滤层结构更加致密, 孔隙度减小, 增加了膜污染阻力; 丝状菌的作用还在于它们能够将污染物牢牢地缠绕、固定在膜表面, 加强了膜表面污染物抵御曝气的水力冲刷作用的能力, 从而也加速了膜污染.     

不同轮作模式下作物根际土壤养分及真菌群落组成特征

为研究宁夏中部干旱带不同轮作模式下土壤养分及真菌群落组成的特征,以谷子轮作大豆（MRG）、轮作籽粒苋（MRA）、轮作藜麦（MRQ）及谷子连作（CK）为对象,测定了土壤养分含量,并利用Illumina MiSeq高通量测序平台测定了土壤真菌的ITS变异区序列.结果表明,不同轮作模式对土壤养分的影响存在差异.3种轮作模式下土壤pH和电导率均有所下降,土壤全氮、全钾、全磷和有机质含量均上升,OTUs数和α多样性指数均高于连作.真菌群落组成研究结果显示,子囊菌门（Ascomycota）为4种模式下的优势菌群.聚类分析显示MRA和MRG的真菌属组成最为相似,其次是MRQ,CK与3种轮作模式相差较大.相关性分析显示,土壤养分与几种优势真菌属呈显著相关性（P<0.05或P<0.01）,土壤全氮、全钾、硝态氮和有机质含量是影响土壤真菌群落最主要的因子.主成分分析（PCA）表明,MRG轮作模式优于MRA和MRQ模式.综上所述,轮作提高了真菌群落多样性指数,改变了土壤真菌群落结构,改善了土壤肥力状况,其中以谷子与大豆轮作效果最佳,建议将谷豆轮作作为中部干旱带杂粮产业中主要的轮作模式之一进行推广.     

Microbial responses to the use of NaClO in sediment treatment

• Chlorine addition enhanced the release of TOC, TN from the sediment. • Chlorine has a long-term negative effect on microbial richness. • Usually enzymes lose activity, and expression of genes was downregulated. • Carbon degradation and nitrification might be strongly inhibited. Chlorine is often used in algal removal and deodorization of landscape waters, and occasionally used as an emergency treatment of heavily polluted sediments. However, the ecological impact of this practice has not been fully studied and recognized. In this study, NaClO at 0.1 mmol/g based on dry weight sediment was evenly mixed into the polluted sediment, and then the sediment was incubated for 150 days to evaluate its microbial effect. Results showed that NaClO addition enhanced the release of TOC, TN, Cr and Cu from the sediment. The microbial richness in the examined sediment decreased continuously, and the Chao1 index declined from 4241 to 2731, in 150 days. The microbial community composition was also changed. The abundance of Proteobacteria and Bacteroidetes increased to 54.8% and 4.2% within 7 days compared to the control, and linear discriminant analysis (LDA) showed gram-negative bacteria and aerobic bacteria enriched after chlorination. The functional prediction with PICRUSt2 showed the functions of the microbial community underwent major adjustments, and the metabolic-related functions such as carbon metabolism, including pyruvate and methane metabolisms were significantly inhibited; besides, 15 out of 22 analyzed key enzymes involved in C cycling and 6 out of 12 key enzymes or genes involved in N cycling were strongly impacted, and the enzymes and genes involved in carbon degradation and denitrification showed remarkable downregulation. It can be concluded that chlorination posed a seriously adverse effect on microbial community structure and function. This study deepens the understanding of the ecological effects of applying chlorine for environmental remediation.     

硝基苯类废水的预处理技术研究

Fe(OH)2对硝基苯具有强烈的还原作用，短时间内可把硝基苯还原为苯胺。催化铁屑法处理硝基苯类废水，除了包括铁屑法处理废水的各种反应外，还能使硝基苯在其表面直接还原，且反应在弱碱性条件下效果较好。m(Fe)：m(Cu)为10：1，pH为9．5，废水硝基苯进水质量浓度为250mg／L，反应时间为30min，硝基苯的去除率达100％。     

Estimation and characterization of PCDD/Fs and dioxin-like PCBs from Chinese iron foundries

The iron foundry industry is considered to be a potential source of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs). This study investigated the emission factors and total emission amounts of PCDD/Fs and dioxin-like polychlorinated biphenyls (DL-PCBs) from iron foundries in China. The concentrations and the World Health Organization toxicity equivalents (WHO-TEQs) are presented and the congener profiles are discussed in this paper.In the present work, 26 fly ash samples were collected and tested to quantify the PCDD/Fs and DL-PCBs generated by 14 plants of different scales, and five stack gas samples were collected from two (named as EFG and LFG) of those plants. The emission levels of PCDD/Fs and DL-PCBs indicated that hot-air cupolas had lower emissions than cold-air cupolas. When iron ore lump and sinter were used as raw material, the emission factors were about 250 ng TEQ t⁻¹ of product. However, if the raw material was scrap, the emission factors varied owing to the different contents of organic materials in the raw materials. It was found that the mean WHO-TEQ values of PCDD/Fs and DL-PCBs were 144 and 34.2 pg Nm⁻³ in stack gas and 20.0 and 1.58 pg g⁻¹ in fly ash. In multiple tests, it was estimated that the mean emission factors of PCDD/Fs and DL-PCBs were 365 and 10.9 ng WHO-TEQ t⁻¹ released to residue and 2719 and 555 ng TEQ t⁻¹ released to air. The total emission amounts of PCDD/Fs and DL-PCBs from Chinese iron foundries with cupola furnaces released to residue and air were 16.8 and 146 g WHO-TEQ in 2008, respectively.