郑州市近地面臭氧污染特征及气象因素分析

利用国控站点空气质量在线监测数据,识别郑州市2015年近地面臭氧(O_3)污染状况、特征及与颗粒物和氮氧化物水平关系,并以烟厂站为例分析郑州市O_3污染与气象要素的相关性。结果表明:郑州市O_3日最大8 h平均值具有明显季节变化,呈现出夏季春季秋季冬季的特征,夏季岗李水库站O_3月均质量浓度为155.5μg/m3,其余站点月均质量浓度为110~150μg/m3;夏季O_3每日最大8 h浓度具有显著"周末效应",其他季节较不明显;O_3小时浓度日变化呈单峰型分布,在15:00—16:00达到峰值,早晨07:00达到谷值;前体物NOx小时浓度日变化呈双峰型分布,与O_3具有显著负相关性;气象因素相关性分析结果表明,郑州市O_3污染日多出现于高温、低湿和微风等条件,这些气象因素有利于O_3生成和累积。     

南京市臭氧污染现状及变化特征的研究

利用2016年南京市臭氧(O_3)及前体物监测数据,对南京市O_3污染现状、变化特征及其与前体物的关系进行分析。结果表明,2016年南京市O_3超标56 d,超标率15.3%,O_3日最大8 h滑动平均值的第90百分位数为184μg/m~3,超标0.15倍。O_3超标主要集中在4—9月份,日变化呈现"单峰"型特征,峰值出现在14:00,而上午8:00—10:00时段O_3浓度升幅最显著,小时浓度升幅超过20%。前体物VOCs和NO_2浓度变化与O_3呈反相关,且VOCs和NO_2浓度冬季最高,夏季最低,秋季和春季基本相当。     

2015—2019年汾渭平原臭氧污染状况分析

基于全国空气质量监测网数据,分析了2015—2019年汾渭平原11个城市臭氧(O_3)污染状况。结果表明:2015—2019年,汾渭平原11个城市O_3平均浓度总体呈升高趋势,年平均升高12.2μg/m~3,其中,2017—2019年均超过二级标准限值(160μg/m~3)。O_3单项污染物的空气质量分指数占空气质量指数的比例逐年升高,O_3超标使汾渭平原2015—2019年各年度空气质量优良天数比例分别减少了1.4、5.4、13.0、11.1、14.4个百分点。O_3浓度呈春夏季(5—9月)高、秋冬季(11—12月)低的特点,其中,5—9月O_3超标天数占全部O_3超标天数的97%以上。各年度O_3日最大8小时平均质量浓度(O_3-8 h)的最大值分别为152、176、224、195、202μg/m~3,均出现在5—7月。O_3-8 h介于150～160μg/m~3的日期主要集中在6—8月,介于160～170μg/m~3的日期主要集中在5—7月,两区间对应的日期属于O_3达标敏感天。2017—2019年,区域内各年度首次出现O_3小时污染的日期有逐渐提前的趋势。2019年,汾渭平原11个城市O_3-8 h第90百分位浓度介于138～204μg/m~3,9个城市超过二级标准限值,O_3超标使临汾、洛阳、晋中、运城、渭南、西安、吕梁、咸阳8个城市的空气质量优良天数比例减少了10个百分点以上。     

青岛市臭氧污染现状及特征分析

基于2015—2018年青岛市O_3监测数据,分析了近年来青岛市区及各子站的O_3浓度变化趋势,并以O_3浓度最高的2017年4月至9月为例,分析O_3浓度高发季节的时空分布特征。结果表明,2015—2018年,青岛市区O_3-8 h第90百分位浓度范围为146～171μg/m~3,O_3浓度总体呈现升高的趋势,2017年达到最高值,2018年有所回落。2017年4月至9月,青岛市区O_3-8 h日浓度范围在52～270μg/m~3,其中有50 d超出国家二级标准。O_3浓度的日变化曲线呈单峰型,14:00～15:00达到峰值。郊区县市的O_3浓度较市区整体偏高,平度、胶州处于较高水平。     

京津冀地区臭氧污染特征与来源分析

2013—2014年京津冀地区13个城市O_3日最大8 h平均值第90百分位数平均为155~162μg/m3,京津冀地区已成为全国O_3污染最严重的地区之一,京津冀地区O_3污染程度有所加重。京津冀地区夏季O_3浓度高,冬季浓度低,O_3质量浓度较高的月份集中在5—9月,12月—次年1月浓度最低。在O_3污染较重的夏季,每日6:00~7:00,O_3质量浓度最低,15:00~16:00 O_3浓度最高。在空间分布上郊区点位的O_3质量浓度往往高于主城区点位。京津冀区域夏季O_3小时浓度和NO2浓度呈高度负相关关系,和其他污染物无明显的相关性。O_3质量浓度和气温呈显著的正相关关系,和大气相对湿度呈显著的负相关关系。京津冀区域O_3的主要来源为NOX和VOC等一次污染物在日光照射下发生光化学反应而产生,控制O_3前体物的源排放,尤其是控制好VOC的排放是控制O_3污染的有效途径。     

徐州市区臭氧浓度变化特征及与气象要素的关系

根据2016年徐州市区臭氧(O_3)自动监测数据以及气象观测数据,探讨了徐州市区O_3浓度的变化特征及其与气象要素的关系。结果表明:2016年徐州市区环境空气中O_3-8h浓度超过二级标准共有32天,超标日集中出现在4月~9月;O_3-8h浓度年均值为122μg/m~3,O_3-8h第90百分位浓度为153μg/m~3。O_3浓度呈现夏季﹥春季﹥秋季﹥冬季的季节性变化特征和"单峰型"的日变化特征。O_3浓度与温度呈正相关性,与湿度和气压呈负相关性;当气压﹤1010 hPa,气温﹥25℃,相对湿度﹤50%时,O_3-8h浓度容易出现超标的情况。     

银川市臭氧污染特征及其气象条件诊断分析

利用2017年银川市区O_3监测数据和同期气象资料,分析O_3污染时间变化特征,在对高浓度O_3污染发生时段典型气象特征诊断分析的基础上,初步总结银川市O_3污染气象要素预警指标和典型环流特征。结果表明:银川市近地面O_3浓度春夏季高、秋冬季低,其月浓度峰值一般出现在夏季6月或7月;O_3浓度白天高、夜间低,日O_3浓度峰值一般出现在14:00—18:00之间;当14:00地面紫外辐射30 W/m~2、气温高于28℃、相对湿度低于40%、风向为偏东或偏南风时发生高浓度O_3污染的概率较高;500 hPa大陆高压脊前西北气流型和地面热低压底部东南气流型是银川市发生O_3污染的典型环流特征。     

安徽省臭氧污染特征及气象影响因素分析

基于2016—2018年安徽省68个国控环境空气质量自动监测站点的臭氧(O_3)监测数据,研究分析了安徽省O_3污染特征及其与气象因子的相关性。结果表明:安徽省O_3污染程度呈现逐年加重趋势,并有显著的季节和月度变化特征。2016—2018年,各年度单月O_3日最大8小时滑动平均质量浓度第90百分位数的最大值分别出现在9月、5月、6月。O_3日变化趋势为典型的单峰形,各年度最低值出现在晨间07:00左右,最高值则是在15:00—16:00。全省O_3浓度总体上呈现出北高南低的空间特征。温度、相对湿度与O_3浓度分别呈现显著正相关、负相关,但在不同季节存在一定差异,其中,春秋季温度与O_3浓度的相关性好于夏冬季,夏季相对湿度与O_3浓度的相关性最为显著。O_3浓度在平均风速为2.1～2.2 m/s时更易出现超标。中部和北部城市在东南风的作用下易出现O_3超标并达到O_3浓度高值,而南部地区在风向为西风时更容易出现O_3超标。     

佛山市近地面臭氧污染特征及相关气象因子分析

利用2014年佛山市8个国控大气自动监测点位的O_3监测数据,分析了佛山市的O_3污染特征,结果表明,2014年O_3日最大8 h平均值的第90百分位数为167μg/m~3,O_3为首要污染物的超标天数为43d,占比46.7%;ρ(O_3)区域变化不大;ρ(O_3)月变化呈现"三峰型",全年高ρ(O_3)集中在6—10月份,其中7月份出现全年最高峰值;ρ(O_3)日变化呈单峰型分布,夜间浓度较低且变化平缓,14:00—16:00左右达到峰值,并存在一定的"周末效应",但并不明显;ρ(O_3)与气温呈显著正相关,与湿度、气压、雨量呈显著负相关,与风向、风速的相关性相对较弱;总体上看,高温、低湿、微风、偏南风、低压、无雨的天气条件下高ρ(O_3)更容易出现。     

济南地区一次沙尘过程的激光雷达观测分析

利用微脉冲激光雷达探测技术,结合常规污染物监测以及PM_(2.5)化学组分监测数据,对2017年5月影响济南地区的一次沙尘天气过程进行分析。结果表明:5月4日12:00沙尘天气开始影响济南市,PM_(10)小时浓度大幅升高,至5月5日13:00,PM_(10)小时浓度达到峰值(质量浓度953μg/m~3)。沙尘过境期间近地面1 500 m以下形成消光系数和退偏比极大区,其中5月5日11:00—13:00,300 m处退偏比平均高达0. 19,非球形特性显著。沙尘天气过程中Mg~(2+)组分、Ca~(2+)组分增幅最为明显。后向轨迹模型HYSPLIT显示,此次沙尘起源于内蒙古中西部地区,沿高空西北方向传输至济南地区。     

A New Mathematical Approach in Environmental and Life Sciences: Gene–Environment Networks and Their Dynamics

An important research area in life sciences is devoted to modeling, prediction, and dynamics of gene-expression patterns. As clearly understood in these days, this enterprise cannot become satisfactory without acknowledging the role of the environment. To a representation of past, present, and most likely future states, we also encounter measurement errors and uncertainties. This paper surveys and improves recent advances in understanding the foundations and interdisciplinary implications of the newly introduced gene–environment networks, and it integrates the important theme of carbon dioxide emission reduction into the networks and dynamics. We also introduce some operational and managerial issues of practical working and decision making, expressed in terms of sliding windows, quadrants (modules) of parametric effects, and navigating (controlling) between such effects and directing them. Given data from DNA microarray experiments and environmental records, we extract nonlinear ordinary differential equations that contain parameters that have to be determined. For this, we employ modern (Chebychevian) approximation and (generalized semi-infinite) optimization. After this is provided, time- discretized dynamical systems are studied. A combinatorial algorithm with polyhedra sequences allows to detect the region of parametric stability. Finally, we analyze the topological landscape of gene–environment networks with its structural (in)stability. By embedding as a module and investigating CO₂ emission control and figuring out game theoretical aspects, we conclude. This pioneering work is theoretically elaborated, practically devoted to health care, medicine, education, living conditions, and environmental protection, and it invites the readers to future research.      

Assessing health consequences in an environmental impact assessment: The case of Amsterdam Airport Schiphol

In this article a comprehensive approach for the evaluation of possible health effects in an environmental impact assessment (EIA) is described, illustrated with the example of Amsterdam Airport Schiphol. Unlike many EIAs, we estimated quantitatively the impact of aircraft-related pollution in terms of the number of affected people for aircraft noise annoyance, odour annoyance and hypertension. In addition, an analysis of health registry data on cardiovascular and respiratory diseases and a short survey on annoyance and risk perception were carried out. The scope of a health impact assessment depends on the situation, available knowledge and data, concern in the population about the impact and the number of people concerned. It is important to pay attention to the perception of risks and concerns from all parties involved. Moreover, the results demonstrate that far more people outside the area for which standards apply were affected than inside.     

Contaminant Profiles of Two Species of Shorebirds Foraging Together at Two Neighboring Sites in South San Francisco Bay, California

The San Francisco Bay estuary isused by over one million shorebirds during springmigration and is home to several hundred thousandduring the winter. Most shorebird use occurs in thesouthern reach of the estuary (South Bay). Thereduced water circulation and discharge fromindustrial sources in the South Bay are responsiblefor the highest levels of some trace elements in theestuary. Wintering shorebirds have been found to havestrong site fidelity to areas as small as a fewkilometers in the South Bay, which may increase theirexposure to contaminants near local point sources. Inaddition, different shorebird species foraging at thesame site have been shown to have differentcontaminant burdens. Thus, our objectives were totest whether contaminant burdens differed by species,or whether contaminant burdens differed in shorebirdscollected at adjacent sites. We examined thecontaminant profiles of two species of shorebirds,long-billed dowitchers (Limnodromus scolopaceus)and western sandpipers (Calidris mauri) thatforage together at two sites, Hayward and Newark,separated by 8 km in the South Bay. We usedmultivariate analysis of variance tests to compare thecomposition of 14 elemental analytes in their livertissues and estimated their molar ratios of Hg and Se. Composite samples were used for contaminant analysesbecause of the small body size of the shorebirds. Seven elemental analytes (Ag, Ba, Be, Cr, Ni, Pb, V)were below detection limits in a majority of thesamples so statistical analyses were precluded. Inthe measurable analytes (As, Cd, Cu, Hg, Mn, Se, Zn),we found no significant intra-site differences ofcontaminant profiles for the two species. We pooledthe samples to examine inter-site differences andfound significant differences in contaminant profilesbetween shorebirds at the neighboring sites (P = 0.03). Shorebirds at Newark had higher (P < 0.05) concentrations of As, Cd, and Se than those at Hayward. Dowitchers at Newark had concentrations of Hg and Se which were highly correlated (P < 0.003) in a mean molar ratio of 1:19, similar tothat reported in other birds. In the larger dowitcherspecies, we also examined exposure to 20organochlorine compounds. Organic analyses showedthat the dowitchers had been exposed to DDE, PCBs,dieldrin and trans-nonachlor, but with no significantdifferences in concentrations between Hayward andNewark (P > 0.05).     

土壤和底泥中砷、铬、锰测定的前处理技术

试验了土壤和底泥中砷的前处理技术，其目的是能对土壤、底泥中砷、铬、锰在一次前处理中制备成试液，比色法分析。试验表明，用Ｈ２ＳＯ４－Ｈ３ＰＯ４－Ｈ２Ｏ２进行前处理是可行的。方法简单、挥发酸雾少，用标准参考物质检验证明，分解完全，数据准确，有粒较好一致性。     

Geochemical assessment of metal transport in glacial till during electrokinetic remediation

This paper presents the chemical speciation and retention behavior of chromium (Cr), nickel (Ni), and cadmium (Cd) prior to and after the electrokinetic remediation in glacial till soil. The speciation of the metals was predicted using the chemical speciation program MINEQL⁺. The simulations were performed for single-contaminant with only Cr(VI) or Ni, and multi-contaminants consisting of: (1) Cr(VI), Ni, and Cd; (2) Cr(III), Ni and Cd; (3) Cr(VI), Cr(III), Ni and Cd; (4) Cr(VI), Ni, and Cd with reducing agents; and (5) Cr(III), Ni, and Cd with oxidizing agent (Mn). The results showed that the speciation and distribution of cationic metals [Ni, Cd, and Cr(III)] in glacial till soil remain unaffected or slightly affected during electrokinetics. This is attributed to the high pH buffering capacity of the glacial till, leading the metals to precipitate in the soil prior to and after electrokinetics. This study showed that during electrokinetics, Cr(VI) existed as anionic complex and migrated towards the anode and the migration is maximum in case of a single-contaminant system. The study also showed that near the anode in the absence of any reducing and oxidizing agent, Cr(VI) mostly adsorbed, and some of Cr(VI) reduced to Cr(III) and migrated towards the cathode and finally precipitated due to high pH conditions. Ni and Cd remain adsorbed or precipitated due to the high pH conditions throughout the soil. Among the reducing agents, the sulfide had significant effect on the migration of metals compared to ferrous ions. While in the presence of oxidizing agent (Mn), no noticeable Cr(VI) was found in the soil sample indicating the reduction of Cr(VI) to Cr(III) and the predominance of reducing conditions due to the presence of naturally occurring iron in the glacial till soil. Overall, this study provides a reasonable explanation of the speciation and distribution of chromium, nickel and cadmium during the electrokinetic remediation of glacial till soil.     

Biomonitoring of Lead, Zinc, and Cadmium in Streams Draining Lead-Mining and Non-Mining Areas, Southeast Missouri, USA

We evaluated exposure of aquatic biota to lead (Pb), zinc (Zn), and cadmium (Cd) in streams draining a Pb-mining district in southeast Missouri. Samples of plant biomass (detritus, periphyton, and filamentous algae), invertebrates (snails, crayfish, and riffle benthos), and two taxa of fish were collected from seven sites closest to mining areas (mining sites), four sites further downstream from mining (downstream sites), and eight reference sites in fall 2001. Samples of plant biomass from mining sites had highest metal concentrations, with means 10- to 60-times greater than those for reference sites. Mean metal concentrations in over 90% of samples of plant biomass from mining sites were significantly greater than those from reference sites. Mean concentrations of Pb, Zn, and Cd in most invertebrate samples from mining sites, and mean Pb concentrations in most fish samples from mining sites, were also significantly greater than those from reference sites. Concentrations of all three metals were lower in samples from downstream sites, but several samples of plant biomass from downstream sites had metal concentrations significantly greater than those from reference sites. Analysis of supplemental samples collected in the fall of 2002, a year of above-average stream discharge, had lower Pb concentrations and higher Cd concentrations than samples collected in 2001, near the end of a multi-year drought. Concentrations of Pb measured in fish and invertebrates collected from mining sites during 2001 and 2002 were similar to those measured at nearby sites in the 1970s, during the early years of mining in the Viburnum Trend. Results of this study demonstrate that long-term Pb mining activity in southeast Missouri has resulted in significantly elevated concentrations of Pb, Cd, and Zn in biota of receiving streams, compared to biota of similar streams without direct influence of mining. Our results also demonstrate that metal exposure in the study area differed significantly among sample types, habitats, and years, and that these factors should be carefully considered in the design of biomonitoring studies.     

Comparative studies on accumulation of Cr from metal solution and tannery effluent under repeated metal exposure by aquatic plants: its toxic effects

The present study demonstrates comparison of Cr accumulatingpotential by the plants of Najas indica Cham. (submerged),Vallisneria spiralis L. (rooted submerged) and Alternanthera sessilis R. Br. (rooted emergent) under repeatedmetal exposure and its effect on chlorophyll and protein concentrations. These plants were treated with different concentrations of Cr under repeated exposure in controlled laboratory conditions to assess the maximum metal accumulationpotential. The plants of V. spiralis accumulated significantly high amount of Cr under laboratory conditions incomparison to N. indica and A. sessilis. The maximumaccumulation of 1378, 458 and 201 g g^-1 dw Cr was found in the leaves of V. spiralis, N. indica and A. sessilis, respectively at 8 mg L^-1 after 9 day of Cr exposure. These plants have shown a decrease in chlorophyll andprotein concentrations with increase in Cr concentrations. In view of high accumulation of Cr in V. spiralis, the plantswere treated with different concentrations of tannery effluent collected from Common Effluent Treatment Plant, Unnao (UP). Theplants of V. spiralis treated with 100% tannery wastewatershowed the maximum accumulation (57.5 g g^-1 dw) of Cr in the roots after 10 days of exposure. The plants were foundeffective in removing Cr from solution and tannery effluent.     

一起河流砷污染事故的处置与监测分析

介绍了大沙河砷污染事故的处置和监测分析。多介质排查监测摸清了污染的范围和程度,为治理工作提供了科学依据,污染治理措施有效控制了污染的扩散;监测数据表明,治理措施将水中砷污染物沉降至河床使污染水质达标排放。吸附了大量砷化合物的底泥被清理并进一步处置,多介质跟踪监测应持续进行直至不存在潜在危害。     

核应急辐射环境监测的准备和响应

日本核泄漏事故引发的核危机为人类安全和平地利用核能又一次敲响了警钟.核事故应急工作作为减小核电站危害环境和公众安全的最后屏障,将起到重要的作用,必须做好相关的准备和响应工作.核应急辐射环境监测工作是核应急工作的重要组成部分,在对核应急辐射环境监测进行准备和响应时主要遵循实用性、适用性和适度性并兼顾常规和应急监测的“平战...