2019年国庆节前后北京气态氨和气溶胶铵盐浓度的同步观测

我国自2013年实施《大气污染防治行动计划》以来,大气细颗粒物(PM2.5)特别是硫酸盐浓度迅速下降,但硝酸盐浓度降幅较小,大气中过量的氨气(NH3)是维持硝酸盐居高不下的主要因素.迄今,我国生态环境部门尚未将NH3纳入常规观测,以往有关NH3和气溶胶铵盐(NH4+)的研究多是分别进行的,缺少同步观测.由于NH3和NH...     

基于MODIS时序数据北回归线(云南段)地区植被物候时空变化及其对气候响应分析

植被物候作为自然界规律性、周期性事件,对开展全球气候变化、植被长势观测等研究具有重要价值。以北回归线(云南段)穿过的县域为研究区,基于长时间序列MODIS EVI(Enhanced Vegetation Index,EVI)、土地利用类型和气候因子数据,采用S-G滤波、动态阈值、相关分析等方法分析19 a(2001—2019年)间植被物候的时空分布特征及其对水热因子的响应。结果表明,(1)海拔和地势起伏在物候地域分异中作用显著,植被物候存在明显的垂直地带性分布特征。山地与河谷、坝子、低海拔区的物候值差异较大,山地地区的植被生长季开始期(Start of Season,SOS)在192—240 d,生长季结束期(End of Season,EOS)在次年144—192 d,生长季长度(Length of Season,LOS)为272—304 d;河谷、坝子、东部低海拔地区的植被SOS在80—112 d,EOS在337至次年17 d,LOS在224—256 d。(2)19 a间植被物候年际变化总体特征为SOS显著提前(R²=0.51,P=0.001<0.05),平均提前1.14 d·(10 a)^?1;EOS推迟(R²=0.01,P=0.756>0.05),平均推迟0.07 d·(10 a)^?1;LOS显著延长(R²=0.47,P=0.001<0.05),平均延长1.07 d·(10 a)^?1。(3)不同植被类型的物候期及其变化趋势不同,研究区森林植被生长期最长,草地次之,耕地最短;19 a间SOS、EOS、LOS变化最大的分别是常绿阔叶林(?1.68 d·(10 a)^?1)、耕地(1.25 d·(10 a)^?1)、木本热带稀树草原(1.28 d·(10 a)^?1)。(4)水热组合对植被生长影响显著,河谷、坝子、东部低海拔地区的植被SOS、EOS分别主要受2月降水(负相关)和4月气温(正相关)、9月降水和气温(正相关)影响,山地地区植被SOS、EOS分别主要受6月降水(正相关)和5月气温(正相关)、5月降水(正相关)和4月气温(正相关)影响。     

Seasonal and treatment-process variations in invertebrates in drinking water treatment plants

• Seasonal and treatment-process variations in invertebrates in a DWTP were analyzed. • The propagation and leakage of invertebrates in BAC filter were the most serious. • Invertebrates can survive and reproduce in chlorine disinfected clear water tanks. • Proportions of endogenous invertebrates increased along the treatment process. Problems associated with excessive propagation and leakage of invertebrates in drinking water have received increasing attention in recent years. We performed a monthly survey of invertebrate abundance and taxa in the effluent of each treatment stage in a drinking water treatment plant between May 2015 and April 2016 and analyzed seasonal and treatment-process variations in invertebrates. The results showed that invertebrate abundances in raw water, effluent of the biological activated carbon (BAC) filter, and finished water significantly correlated with water temperature, whereas no correlation was observed between water temperature and invertebrate abundance in the effluents of the sedimentation tank and sand filter. The dominant taxa in the effluent of each treatment stage were rotifers, nematodes, and crustaceans. The sedimentation tank could efficiently remove invertebrates with an annual average removal rate of 92%. The propagation and leakage of invertebrates occurred in the sand and BAC filters but more seriously in the latter. The average reproduction rate in the BAC filter was 268.8% with rotifers as the taxon that leaked the most. Invertebrate survival and reproduction were also observed in the chlorine-disinfected clean water reservoir with an average reproduction rate of 41.9%. Owing to differences in chlorine resistance, the reproduction ability of the dominant taxa was in the order nematodes>crustaceans>rotifers. The proportion of endogenous invertebrates gradually increased along the treatment process. The average proportion of endogenous invertebrates in the finished water was higher than 79.0%. Our findings suggested that waterworks should pay more attention to endogenous invertebrate growth.     

中国城市CO2排放和空气质量协同变化特征及驱动因素研究

城市既是受到气候变化和空气污染影响的重点区域,又是落实应对气候变化和大气污染防控政策的关键主体。在城市尺度上研究减污降碳政策的协同效应及其时空异质化的影响规律,将为因地制宜地制定减污降碳政策提供依据。本研究分析了2012—2019年我国284个地级市减污降碳协同效应指数的动态时空变化特征和规律;而后通过构建STIRPAT模型和地理时空加权回归（GTWR）模型,探讨了低碳政策、大气污染物防控政策、产业结构等驱动因素对减污降碳协同效应的时空异质化影响机制。结果表明：全国主要地级市耦合协调度指数平均值由2012年的0.79增加至2019年的0.85,环京津冀区域、汾渭平原等京津冀大气污染传输通道城市区域耦合协调度指数显著提高。以低碳试点城市为代表的区域,其降碳政策、减污政策、产业结构、人口规模、城镇化水平以及技术投入对减污降碳协同效应的影响存在显著的空间异质性。华北平原城市群作为大气污染防治的重点区域,主要通过减污政策提高协同效益;低碳政策主要在京津冀城市群、长江中游以及东南沿海地区城市发挥作用;中西部城市则主要通过产业结构调整、加大技术投入实现协同效益。最后,基于此提出促进城市减污降碳协同效益的对策建议。     

西安市大气中多溴联苯醚的季节变化特征及人体暴露评估

利用大流量主动采样器于2008年8月至2009年7月采集了西安城区气态和颗粒态大气样品,研究了大气中多溴联苯醚(PBDEs)的季节变化特征.结果表明,西安大气中总PBDEs(气相+颗粒相)浓度范围为21.38~161.84pg/m3,平均值为66.34pg/m3.大气中PBDEs在冬季污染最严重,颗粒相PBDEs季节变化趋势与总悬浮颗粒(TSP)较为相似,气相PBDEs的季节变化没有颗粒相明显.对PBDEs的总浓度、气相浓度、颗粒相浓度与采样期间气象因素做偏相关分析,发现总浓度和颗粒相浓度均与气压呈显著正相关,与温度呈显著负相关,表明西安大气中PBDEs浓度主要受气压和温度的影响.对西安普通人群的PBDEs吸入暴露量进行计算,并采用BDE-99的吸入量进行人体暴露评估,西安普通儿童和成人对BDE-99总摄入量低于De Winter-Sorkina提出的最大允许摄入量260pg/(kg·d).     

青藏高原纳木错湖水主要化学离子的时空变化特征

为揭示青藏高原纳木错湖水化学离子的时空变化特征、来源以及主要控制因子,于2006～2010年连续定点(30°47.27’N,90°58.53’E,4 718 m a.s.l.)采集近岸表层湖水样品;于2009年8月采集湖心区剖面样品;于2010年10月采集湖心区剖面样品及表层湖水样品;对其主要化学离子进行分析.结果表明,纳木错湖水中主要阳离子为Na+,主要阴离子为HCO3-.绝大多数离子浓度在季风期较高(6～9月),而非季风期尤其是封冻期(1～4月)偏低;Ca2+浓度的变化则相反,即封冻期较高,而非封冻期较低且变化较小.对垂直剖面湖水分析表明,在湖水垂直结构稳定的非季风期(如10月),除Ca2+浓度随深度无显著变化外,其他离子浓度随深度增加而增大.纳木错湖水主要离子来源于入湖河水的贡献;影响离子时空变化的因素包括蒸发、降水、pH值等,其中蒸发是最主要的影响因素,它造成湖水Na+浓度不断升高而Ca2+浓度降低.     

Spatial and temporal variations of water quality in Cao-E River of eastern China

Evaluation and analysis of water quality variations were performed with integrated consideration of water quality parameters, hydrological-meteorologic and anthropogenic factors in Cao-E River, Zhejiang Province of China. Cao-E River system has been polluted and the water quality of some reaches are inferior to Grade V according to National Surface Water Quality Standard of China （GB2002）. However, mainly polluted indices of each tributary and mainstream are different. Total nitrogen （TN） and total phosphorus （TP） in the water are the main polluted indices for mainstream that varies from 1.52 to 45.85 mg/L and 0.02 to 4.02 mg/L, respectively. TN is the main polluted indices for Sub-watershed Ⅰ, Ⅱ, Ⅳ and Ⅴ（0.76 to 18.27 mg/L）. BOD5 （0.36 to 289.5 mg/L）, CODMn （0.47 to 78.86 mg/L）, TN （0.74 to 31.09 mg/L） and TP （0 to 3.75 mg/L） are the main polluted indices for Sub-watershed Ⅲ. There are tow pollution types along the river including nonpoint source pollution and point source pollution types. Remarkably temporal variations with a few spatial variations occur in nonpoint pollution type reaches （including mainstream, Sub-watershed Ⅰ and Ⅱ） that mainly drained by arable field and/or dispersive rural dwelling district, and the maximum pollutant concentration appears in flooding seasons. It implied that the runoff increases the pollutant concentration of the water in the nonpoint pollution type reaches. On the other hand, remarkably spatial variations occur in the point pollution type reaches （include Sub-watershed Ⅲ, Ⅳ and Ⅴ） and the maximum pollutant concentration appears in urban reaches. The runoff always decreases the pollutant concentration of the river water in the seriously polluted reaches that drained by industrial point sewage. But for the point pollution reaches resulted from centralized town domestic sewage pipeline and from frequent shipping and digging sands, rainfall always increased the concentration of pollutant （TN） in the river water too. Pollution controls were respectively suggested for these tow types according to different pollution causes.     

水电工程干扰下澜沧江典型段的水温时空特征

以澜沧江流域漫湾库尾至大朝山坝下的水电工程干扰典型段为研究区域,利用1978～2005年建坝前后的水温实测资料,采用相关分析、线性回归的方法分析表层水温、下泄水温的时空分布特征.结果表明,水电工程建设后库区蓄水对表层水温有着明显的增温效应,坝前表层水温仅5～8月低于气温,其余所有月份坝前表层水温均高于建坝前的天然表层水温,时间分异性减弱.库区出水温度一般冬季(干季)高于气温和天然表层水温,而夏季(雨季)则相反,与天然水温和气温的变化趋势有2个月的滞后性.从库尾到坝前,表层水温与天然气温逐渐接近,水温/气温比与距离大坝距离之间存在正相关关系,漫湾库区下泄水对大朝山库区的水温具有一定的累积效应.本研究结果表明水电工程对澜沧江典型河段的水温时空分布存在显著效应.     

Secondary organic aerosols in Jinan, an urban site in North China: Significant anthropogenic contributions to heavy pollution

Secondary organic aerosols(SOAs) are an important component of particulates, but whether biogenic SOAs(BSOAs) or anthropogenic SOAs(ASOAs) are the dominant contributors to haze pollution remains poorly characterized. In this study, particulate samples were collected from September 2014 to August 2015 at an urban site in Jinan, which is the capital of Shandong Province and a typical city in the North China Plain. The PM2.5 samples were analyzed for BSOA(isoprene(SOAI) and monoterpenes(SOAM)) and ASOA(aromatic(SOAA)) tracers. The concentrations of the SOAAtracer(1.1 ± 1.0 ng/m3) were lowest, and those of SOAItracers(41.8 ± 86.2 ng/m3) were highest, with the concentrations of SOAMtracers(19.4 ± 9.9 ng/m3) being intermediate. The SOAItracers were more abundant in the summer and less abundant in the winter. Both SOAIand SOAMincreased with increasing ozone level but decreased with increasing NOx level. Correlation analysis revealed a good correlation between 2,3-dihydroxy-4-oxopentanoic acid and levoglucosan levels in three seasons. These results suggested that biomass burning activities occurring in the NCP can enhance the emissions of aromatics and should be controlled, especially in the autumn and winter. SOA tracers were classified according to pollution degree, and the results showed that as pollution increases, the contributions of SOAAincrease. These results indicate that reducing anthropogenic emissions is necessary to prevent SOA pollution, especially during heavy pollution episodes.     

中国黄土高原地区大雨频次演变特征

利用黄土高原40年降水资料,研究了该区域大雨以上降雨频数演变.结果表明:黄土高原地区大雨频次是自西北向东南逐渐增多;大雨频次存在减少趋势;小波分析表明大雨频数存在4～5年、8年左右和15年左右的周期振荡;大雨频数存在4个特征区域,各区变化幅度和时段明显不同.