共查询到20条相似文献,搜索用时 31 毫秒
1.
利用ERA-interim月平均再分析资料、相关分析和信息流方法,分析了1979~2015年夏半年(5~9月)100 hPa上南亚高压与邻近地区臭氧变化的相互作用。结果表明:除7月外,夏半年南亚高压与南亚高压区臭氧低值(简称臭氧低值)存在相互作用。6月和9月南亚高压和臭氧低值强度变化相互影响,而在5月和8月二者的作用仅仅是单向的。在6月南亚高压和臭氧低值的中部和西部边缘,以及9月南亚高压北部和臭氧低值中心区,臭氧低值增强(减弱)可能是南亚高压增强(减弱)的部分原因,南亚高压增强(减弱)也可能是臭氧低值增强(减弱)的部分原因。在6月南亚高压和臭氧低值的东南部、8月南亚高压和臭氧低值的西部和东部,以及9月南亚高压的西部,南亚高压增强(减弱)可能导致臭氧低值增强(减弱)。在5月南亚高压西部和臭氧低值南部,臭氧低值的增强(减弱)可能导致了南亚高压的增强(减弱)。根据相关分析,推测臭氧变化对南亚高压变化的可能影响机制如下:当南亚高压区臭氧浓度出现正异常时,辐射加热在其上部(下部)为负异常(正异常),导致高层(低层)异常辐合(辐散),从而导致下沉异常。高层异常辐合与下沉异常最终使南亚高压异常减弱。而臭氧浓度负异常导致南亚高压呈现正异常的过程与上述过程相反。 相似文献
2.
Ozone Vertical Profile Characteristics over Qinghai Plateau Measured by Electrochemical Concentration Cell Ozonesondes 总被引:7,自引:0,他引:7
OzoneVerticalProfileCharacteristicsoverQinghaiPlateauMeasuredbyElectrochemicalConcentrationCelOzonesondes①LiuQijun(刘奇俊),Zheng... 相似文献
3.
本文利用1957年9月到2002年8月,共540个月的ERA-40的经向风和臭氧质量混合比月平均资料,分析研究了平均经圈环流(MMC)和Hadley环流强弱特征变化及其与臭氧变化的关系.分析指出:(1)平均经圈环流与臭氧分布在垂直方向上有很好的对应和相关关系,平均经圈环流是形成臭氧水平、垂直的气候平均态分布,季节变化,年代际变化的重要因素;(2)垂直方向上北半球臭氧浓度的变化比南半球的变化更明显;(3)典型相关分析表明平均经圈环流与臭氧浓度变化在不同的高度和纬度上有不同的相关关系,臭氧与Hadley和Ferrel环流存在密切的相关关系,特别是Hadley环流,这表明Hadley环流在全球大气臭氧的变化中起重要作用. 相似文献
4.
1.IntroductionInrecentyearsmanystudiesshowthatozoneinthesurfacelayerisanimportantfactorforcontrolingatmosphericchemistryreact... 相似文献
5.
By means of a three-dimensional meteorological model (MM5) and a chemical model,the distributions of tropospheric ozone and its precursors over China have been simulated in summer and winter time,16-18 August 1994 and 7-9 January 1995.The distribution of ozone over the Tibetan Plateau in summer time is deeply discussed.The simulated results indicate that thedistributions of surface ozone and NOx are in good agreement with observed results,and human activities and photochemical reactions are the main factors controlling the surface ozone and NOx concentrations.In addition,higher ozone concentrations are coincided with the air convergence,and the lower concentrations are related to the air divergence.In summer,over the Tibetan Plateau the strong flow convergence results in higher ozone concentrations in the lower troposphere:and the strong flow divergence results in lower ozone concentrations in the upper troposphere.In winter time ozone concentrations show large-scale characteristics controlled by westerly flow,and in the jet area they are lower than those outside the jet. 相似文献
6.
N. V. Tereb L. I. Milekhin V. L. Milekhin V. D. Gnilomedov D. R. Nechaev L. K. Kulizhnikova V. V. Shirotov 《Russian Meteorology and Hydrology》2013,38(5):304-312
Given and analyzed are the results of the measuring of concentration of ozone O3, nitrogen oxides NOx, and carbon monoxide CO at the surface as well as the sum of hydrocarbons and the aerosol optical depth in Obninsk (Kaluga oblast) during the warm period 2010 and 2011. The relationship between the air temperature and the maximum daily ozone values in May–September 2010 are characterized by the higher correlation coefficient than in May–September 2011: 0.82 ± 0.05 versus 0.64 ± 0.07. Increased concentration of surface ozone in Obninsk in July–August 2010 as compared to the similar period in 2011 were caused by the higher concentrations of the compounds-predecessors of ozone. The concentration of O3 in August 2010 exceeded 200μg/m3 and was never registered in Obninsk during the observation period of 2004–2011. This is associated with the air masses that came to Obninsk from the areas with peat and forest fires that resulted in the dramatic increase in surface concentrations of NOx, CO, and hydrocarbons. 相似文献
7.
利用欧洲中期数值预报中心(ECMWF)提供的ERA5高分辨率月平均再分析资料,分析了1991—2020年共30 a夏季6—8月南亚高压对其邻近上对流层—下平流层区域臭氧(O3)分布的影响。结果表明:ERA5资料能清晰地刻画出南亚高压夏季6—8月的月变化及振荡特征,同时能很好地反映出对应的臭氧低值这一现象。此外,ERA5高分辨率资料还能揭示出臭氧低值的范围和强度变化与南亚高压的范围和强度变化之间存在紧密联系。当南亚高压异常偏强(弱)时,邻近区域的臭氧低值增强(减弱),当南亚高压中心位置发生振荡时,臭氧浓度纬向偏差的中心也随之发生变化,这种变化在南亚高压偏强年时更明显。但这种联系有一定复杂性,不同月份的相关性存在差异。南亚高压对臭氧浓度的这种影响主要与对流层的空气输送有关,臭氧低值中心位置和范围的变化与位涡低值、位温纬向偏差负值区域分布相对应。 相似文献
8.
利用2014—2017年梅州城区的O3监测数据和相关气象观测资料,对本地区的O3的变化特征及影响O3的气象条件进行了相关分析。分析表明:梅州地区2014—2017年O3超标日数维持稳定水平,O3二级超标日数全部集中在春季和夏季; O3二级超标天数占AQI超标日数的比例快速上升,O3二级超标主要发生在3—8月,最多的是4月,O3是影响梅州市区空气质量重要因素。O3的月平均浓度与同期气温、日照显著正相关,与同期的气压呈显著负相关; O3污染过程中,O3的逐日浓度与同期气温、日照显著正相关,与同期的总云量、低云量、湿度呈显著负相关; O3污染过程中,O3浓度与地面及高空天气形势配置关系密切,O3浓度变化是多种气象要素共同作用的结果。 相似文献
9.
10.
北极臭氧垂直分布和天气尺度变化的观测研究 总被引:2,自引:0,他引:2
北极地区臭氧对北极气候和环境系统起着重要作用。研究其分布和变化有助于了解北极的气候和环境及其对全球气候系统的影响,有助于气候和环境变化的数值预报。中国北极科学探测1999在北冰洋楚可奇海域成功的进行了大气臭氧观测。通过在中国“雪龙”号破冰船甲板上(于1999年8月18-24日在75°N,160°W附近处)释放大气臭氧探空仪获得了高分辨率的大气垂直结构和臭氧分布资料,可以进行大气尺度的大气臭氧变化研究。分析大气监测资料、TOMS臭氧总量资料和NCEP大气环流资料表明,大气臭氧总量随着对流层顶的低一高一低变化呈高一低一高的变化过程。研究还表明,大气柱的臭氧总量与13公里以下的大气臭氧含量关系密切,而在约20公里处的大气臭氧浓度最大值的变化与整个气柱臭氧的关系不大。500 hPa天气形势图上一个弱一强一弱的西南天气型造成的弱臭氧平流可能是这次臭氧变化的主要原因。 相似文献
11.
Martin Saliba Raymond Ellul Liberato Camilleri Hans Güsten 《Journal of Atmospheric Chemistry》2008,60(2):117-135
A 10-year study of surface ozone mixing ratios in the Central Mediterranean was conducted based on continuous ozone measurements
from 1997 to 2006 by a background regional Global Atmospheric Watch (GAW) station on the island of Gozo. The mean annual maximum
mixing ratio is of the order of 66 ppbv in April–May with a broad secondary maximum of 64 ppbv in July–September. No long-term
increase or decrease in the background level of surface ozone could be observed over the last 10 years. This is contrary to
observations made in the Eastern Mediterranean, where a slow decrease in the background ozone mixing ratio was observed over
the past 7 years. Despite the very high average annual ozone mixing ratio exceeding 50 ppbv—in fact, the highest average background
ozone mixing ratio ever measured in Europe—, the diurnal O
3 max/O
3 min index of <1.40 indicates that the island of Gozo is a good site for measuring background surface ozone. However, frequent
photosmog events from June to September during the past 10 years with ozone mixing ratios exceeding 90 ppbv indicate that
the Central Mediterranean is prone to long-range transport of air pollutants from Europe by northerly winds. This was particularly
evident during the so-called “August heatwave” of the year 2003 when the overall ozone mixing ratio was 4.6 ppbv higher than
the average of all other 9 months of August since 1997. Air mass back-trajectory analysis of the August 2003 photosmog episodes
on Gozo confirmed that ozone pollution originated from the European continent. Regression analysis was used to analyse the
10-year data set in order to model the behaviour of the ozone mixing ratio in terms of the meteorological parameters of wind
speed, relative humidity, global radiation, temperature, month of year, wind sector, atmospheric pressure, and time of day
(predictors). Most of these predictors were found to significantly affect the ozone mixing ratios. From March to November,
the monthly average of the AOT40 threshold value for the protection of crops and vegetation against ozone was constantly exceeded
on Gozo during the past 10 years. 相似文献
12.
一次对流层异常臭氧次峰的观测研究及其动力输送过程的分析 总被引:4,自引:1,他引:4
文中分析了 1996年 8月 1日发生在西宁 (36 .4 3°N ,10 1.4 5°E ,海拔 :2 2 96m)地区对流层异常臭氧次峰现象。观测资料揭示了高空低压槽东移是臭氧次峰的主要天气特征。三维后向轨迹计算表明 ,尽管代表臭氧次峰的气团可以追溯到中亚地区 ,但是明显的气团向下输送则发生在新疆、青海间的高空低压槽内。中尺度模拟进一步确认了对流层顶折叠和平流层向下输送是臭氧次峰出现的动力机制。臭氧次峰在对流层高度位置与准无辐散层有关 相似文献
13.
Kenneth E. Pickering Anne M. Thompson John R. Scala Wei-Kuo Tao Joanne Simpson 《Journal of Atmospheric Chemistry》1992,14(1-4):297-313
The effects of deep convection on the potential for forming ozone (ozone production potential) in the free troposphere have been simulated for regions where the trace gas composition is influenced by biomass burning. Cloud dynamical and photochemical simulations based on observations in 1980 and 1985 Brazilian campaigns form the basis of a sensitivity study of the ozone production potential under differing conditions. The photochemical fate of pollutants actually entrained in a cumulus event of August 1985 during NASA/GTE/ABLE 2A (Case 1) is compared to photochemical ozone production that could have occurred if the same storm had been located closer to regions of savanna burning (Case 2) and forest burning (Case 3). In each case studied, the ozone production potential is calculated for a 24-hour period following convective redistribution of ozone precursors and compared to ozone production in the absence of convection. In all cases there is considerably more ozone formed in the middle and upper troposphere when convection has redistributed NOx, hydrocarbons and CO compared to the case of no convection.In the August 1985 ABLE 2A event, entrainment of a layer polluted with biomass burning into a convective squall line changes the free tropospheric cloud outflow column (5–13 km) ozone production potential from net destruction to net production. If it is assumed that the same cloud dynamics occur directly over regions of savanna burning, ozone production rates in the middle and upper troposphere are much greater. Diurnally averaged ozone production following convection may reach 7 ppbv/day averaged over the layer from 5–13 km-compared to typical free tropospheric concentrations of 25–30 ppbv O3 during nonpolluted conditions in ABLE 2A. Convection over a forested region where isoprene as well as hydrocarbons from combustion can be transported into the free troposphere leads to yet higher amounts of ozone production. 相似文献
14.
Peter Nojarov Peter Ivanov Ivo Kalapov Ilia Penev Mirolujba Drenska 《Theoretical and Applied Climatology》2009,98(1-2):201-208
Connection between ozone concentration and atmosphere circulation is investigated based on measurements at BEO station, peak Moussala (2,925 m a.s.l.), for the period 09 August 2006 to 29 January 2008. Ozone concentration data are collected with UV-analyzer “Environnement O3 42” and meteo data with weather station “Vaisala”. There are measurements of 7Be. Data from NOAA HYSPLIT model for particle trajectories are also used. Eight wind directions and three ranges of wind velocities are employed in the analysis. A comparison of ozone concentrations in upward and downward air transport according to HYSPLIT model is made. The number of cases with ozone concentration above 63 ppb has been counted. Mann–Whitney nonparametric test is employed as a basic statistical method. Correlation between atmosphere pressure and tropospheric ozone content is made. The same is done for 7Be and ozone. The main conclusion is that there is not any local or regional pollution effect detectable at peak Moussala, but most of the ozone measured is due to emissions of hydrocarbons and NO x over a larger region. There could be some regional sources of ozone building substances in southwest direction from peak Moussala. Air transported from the north quarter has higher ozone concentrations compared to the south quarter. In vertical direction, upward transport of air masses shows higher values of ozone concentration. Higher wind velocity is associated with low ozone concentrations at peak Moussala. The annual course of ozone concentration has summer maximum and winter minimum. There is right connection between air pressure and ozone concentration. The same is valid for the correlation between 7Be and ozone. Diurnal ozone course shows daytime maximum in winter and nighttime maximum in summer. 相似文献
15.
G. Salisbury P. S. Monks S. Bauguitte B. J. Bandy S. A. Penkett 《Journal of Atmospheric Chemistry》2002,41(2):163-187
Measurements of the sum of peroxy radicals [HO2 + RO2],NOx (NO + NO2) and NOy (the sum of oxidisednitrogen species) made at Mace Head, on the Atlantic coast of Ireland in summer 1996 and spring 1997 are presented. Together with a suite of ancillary measurements, including the photolysis frequencies of O3 O(1D)(j(O1D)) and NO2 (j(NO2)), the measured peroxy radicals are used to calculate meandailyozone tendency (defined as the difference of the in-situphotochemical ozone production and loss rates); these values are compared with values derived from the photochemical stationary state (PSS) expression. Although the correlation between the two sets of values is good, the PSS values are found to be significantly larger than those derived from the peroxy radical measurements, on average, in line with previous published work. Possible sources of error in these calculations are discussed in detail. The data are further divided up into five wind sectors, according to the instantaneous wind direction measured at the research station. Calculation of mean ozone tendencies by wind sector shows that ozone productivity was higher during spring (April–May) 1997 than during summer (July–August) 1996across all airmasses, suggesting that tropospheric photochemistry plays an important role in the widely-reported spring ozone maximum in the Northern Hemisphere. Ozone tendencies were close to zero for the relatively unpolluted south-west, west and north-west wind sectors in the summer campaign, whereas ozone productivity was greatest in the polluted south-east sector for both campaigns. Daytime weighted average ozone tendencies were +(0.3± 0.1) ppbv h–1 for summer 1996 and +(1.0± 0.5) ppbvh–1 for spring 1997. These figures reflect the higher mixing ratios of ozone precursors in spring overall, as well as the higher proportion of polluted air masses from the south-east arriving at the site during the spring campaign. The ozone compensation point, where photochemical ozone destruction and production processes are in balance, is calculated to be ca. 14 pptv NO for both campaigns. 相似文献
16.
In this study, we present the observational data of near surface ozone and some meteorological parameters during 2004, at an urban site (36°42′ N, 117°08′ E, 34.5 m a.s.l.) of Jinan, China. Hourly ozone concentrations exceeding the standard value of China, 100 ppbv, were observed for 65 h (in 23 days) from April to October, and values exceeding US NAAQS (National Ambient Air Quality Standard) for 1 h ozone, 120 ppbv, were observed for 15 h (in 7 days) from late May to early July. Ozone formation presented the phenomenon of “weekend effect”, especially in summer. Monthly variation of ozone coincided with temperature except for July and August. The low ozone levels in July and August may be due to the short sunshine duration and much rainfall during this period. Among these meteorological parameters, daily averaged ozone shows a significant correlation with temperature (r = 0.66) in the year and with relative humidity (r = − 0.75) in summer. Throughout the year, high ozone concentrations were mainly associated with the wind from 180 to 247.5°, while high ozone concentration seemed to have no obvious correlation with a given wind direction in summer. An anomalous nocturnal high ozone episode during 23–25 May 2004 was investigated. Growth fractions of ozone during the nighttime episode were 62.2% and 71.1% for 23 and 24 May, respectively. Synoptic analysis shows that favorable synoptic condition had presumably elevated the background ozone level in this region. Backward trajectory analysis shows that the increase of ozone concentration and the relatively constant high ozone concentrations during the night of May 23 might originate from the transport of ozone rich air mass above boundary layer. Transport of ozone from Yangtze Delta and East Central China might be a significant process for the high ozone level during night May 24 at Jinan. 相似文献
17.
A. M. Zvyagintsev N. S. Ivanova G. M. Kruchenitskii I. N. Kuznetsova 《Russian Meteorology and Hydrology》2013,38(11):792-795
The review is compiled on the basis of the results of monitoring the total ozone (TO) in the CIS and Baltic countries that functions in the operational regime at the Central Aerological Observatory (CAO). The monitoring system uses the data from the national network with M-124 filter ozonometers under methodological supervision of the Main Geophysical Observatory. The quality of the functioning of the entire system is under operational control based on the observations obtained from the OMI satellite equipment (NASA, the United States). The basic TO observation data are generalized for each month of the first quarter of 2013 and for the quarter as a whole. The data on the development of the Antarctic spring ozone anomaly in August and September 2013 are presented as well as the results of regular observations of the surface ozone content carried out in Moscow region by GPBU Mosekomonitoring and CAO. 相似文献
18.
M. L. Sánchez M. A. García I. A. Pérez B. de Torre 《Journal of Atmospheric Chemistry》2008,60(2):137-152
This paper presents the main experimental results of surface ozone concentrations measured at a rural area in Northern Spain
from February 2000 to December 2005. Daily and seasonal variation of ozone has been analysed. The peak concentration levels
are obtained in the afternoon, mean value around 88 μg m−3, with extreme average values of 59 μg m−3 in January and 113 μg m−3 in July. Small differences are found in the mean and median of the ozone levels from April to August, when spring and summer
maxima are observed. Despite the great inter-annual ozone variability obtained, most air quality indicators showed a positive
trend. Further analysis of the monthly mean ozone concentrations of the main percentiles have also been performed using a
harmonic model. The upward trend was 6.2 ± 1.7 μg m−3 for the 98th percentile. To interpret the main features of the annual cycle and describe the ozone peaks, the influence of
meteorological factors is studied. In summer, ozone production is governed by local processes, air temperature being the major
controlling factor. However, the origin of the spring maximum is not so well identified. 相似文献
19.
利用广东省中山市2015—2019年的地面臭氧浓度及气象观测数据,分析了中山市近年来臭氧超标与气象条件的关系。结果表明,中山市2015—2019年臭氧超标天数从22天增加至66天,臭氧年评价值增长36%,中度污染以上天数占超标天数比例从9.1%增长至36.4%。臭氧超标主要集中在8—11月,其中9月超标天数最多。夏秋季节臭氧超标主要发生在气温高、湿度低、太阳辐射强、日间10—14时无明显降水、吹北风的气象条件下,臭氧的污染潜在源区主要位于中山西部到北部的城市。风向和气温是臭氧超标最重要的指标,夏、秋季日间吹北风且日最高气温在33 ℃或以上时超标率分别达到89.1%和78.6%。2017年和2019年在相同的最高温、相对湿度、太阳辐射强度、降水和风速条件下的臭氧超标率均远高于2015年。当臭氧起始浓度在10 μg/m3以下、11~30 μg/m3及30 μg/m3以上时,夏(秋)季从起始浓度达到超标分别用时7.1(6.9) h、6.2(6.2) h和5.8(5.9) h,相应气温上升7.2(7.1) ℃、5.8(5.8) ℃和4.7(5.1)℃,起始浓度增大时,超标耗时和气温变化均呈减小趋势。 相似文献
20.
Results from two air quality models (LOTOS, EURAD) have been used toanalyse the contribution of the different terms in the continuity equationto the budget of ozone, NOx and PAN. Both models cover largeparts of Europe and describe the processes relevant for troposphericchemistry and dynamics. One of the models is designed to simulate episodesin the order of 1–2 weeks (EURAD), the other is focussing on theseasonal scale (LOTOS). Based on EURAD simulations it is found that theatmospheric boundary layer (ABL) in Central Europe during a summer-smogepisode in 1990 acts as a source of ozone, which is partly exported from theproduction region in Central Europe. About 40% of the ozone producedchemically in the ABL is lost from Central Europe due to net transport(large-scale and turbulent), 40% are deposited within the domain. Vertical mass exchange of ozone is dominated by the prevailing subsidenceand averaged vertical mass fluxes are directed downward. Averaged massfluxes of PAN, which has no stratospheric source, are upward in the upperpart of the ABL. The results from LOTOS are discussed for the same episodeand for a two month period (July/August 1990). The budget calculation showlarger chemical production for the LOTOS model compared to EURAD. Therelative importance of deposition and net transport, however, is in the sameorder. Differences between the two-month calculation and the one weekepisode are only important for Western Europe where the chemical production is enhanced by 30% during the summer-smog episode. The dependence ofthe results on initial and boundary values is discussed for ozone on thebasis of a simple sensitivity study with EURAD where ozone in the FT is setto 10 ppb initially. This leads to a reversal in the direction of averagedozone mass fluxes in the upper part of the ABL. 相似文献