Interannual and Decadal Variations of Surface Solar Radiation over East China in the First Half of the 20th Century

Variability and long-term trends of sunshine duration(SSD) and total cloud cover(TCC) were studied based on surface observations from 10 meteorological stations over East China in the first half of the 20 th century. The correlation coefficients between SSD and diurnal temperature range(DTR), as well as TCC, were analyzed. SSD experienced a significant increasing trend(0.16 h d-1 per decade) from 1908 to 1936, and the maximum brightening was in autumn(0.33 h d-1 per decade). The good agreement between the variability of SSD and DTR, supported by the correlation coefficient between them of 0.72, implies that the SSD measurements were reliable. TCC showed a decreasing trend(-0.93% per decade) and was significantly inversely related to SSD(-0.74), indicating the variation of SSD was attributable to changes in cloud cover. The result was obviously different to that since the 1960 s, when clouds could not account for the decadal trend of surface solar radiation in China.     

城市化进程对安徽省风速的影响

利用1981-2010年安徽省61个站的逐日风速资料,结合卫星遥感台站分类方法,统计分析了城市化进程对年、季节平均风速、最大风速和小风日数的影响和贡献。结果表明：(1) 近30年安徽省年、季节平均风速和最大风速呈显著减少趋势,小风日数呈显著增加趋势。城市站的变化速率明显大于乡村站,郊区站基本介于二者之间。(2) 2000年开始安徽省城市化进程加快,导致城市站与乡村站平均风速及小风日数距平的差异有明显增大趋势。(3) 城市站与乡村站年平均风速的趋势系数之差为-0.10 (m/s) /10a,城市化对年平均风速减弱的贡献率为40.0%,春季更明显;城市站与乡村站年小风日数的趋势系数之差为15.58 d/10a,城市化对年小风日数增多的贡献率为46.9%,秋、冬季更明显;城市化对年最大风速的影响不明显。     

城市化对华北地区最高, 最低气温和日较差变化趋势的影响

利用华北地区255个一般站和国家基本、 基准站1961\_2000年的实测资料, 经过质量检验和均一性订正后, 将所有台站根据人口和台站地理位置分为5个类别, 分析了这5个类别台站和国家基本、 基准站地面平均气温、 最高、 最低气温的年和季节变化趋势以及城市化影响。结果表明： 华北全部台站的年平均气温、 最高、 最低气温均呈增加趋势, 且以最低气温上升最为明显, 导致年平均日较差呈现明显下降。就城市化影响而言, 平均气温、 最低气温变化趋势中城市热岛效应加强因素的影响明显, 但城市化对最高气温趋势影响微弱, 个别台站和季节甚至可能造成降温。在国家基本、 基准站观测的年平均气温和年平均最低气温上升趋势中, 城市化造成的增温分别为0.11℃·(10a)-1和0.20℃·(10a)-1, 对全部增温的贡献率分别达39.3%和52.6%。各类台站的四季平均气温和最低气温序列中城市化影响均造成增温。城市化增温以冬季为最大, 夏季最小。城市化还导致乡村站以外的各类台站日较差减小, 近40年华北地区国家基本、 基准站年平均和秋、 冬季平均气温日较差明显下降均由城市化影响造成的。     

Temporal characteristics of the Beijing urban heat island

Summary This paper describes the inter-annual trend, and the seasonal and hourly variation of the near surface urban heat island (UHI) in Beijing. The surface air temperature data (mean, maximum, and minimum) from one urban (downtown Beijing) and one rural (70 km from downtown Beijing) station were used for the period 1977 and 2000. It is found that the temperatures in both urban and rural stations show an increasing tendency. Specifically, minimum temperature shows the greatest tendency at the urban station whereas maximum temperature shows the greatest increase at the rural station. The UHI intensity obtained by calculating the difference in temperatures between the two stations identifies that the intensity is greatest and has the greatest increasing trend for minimum temperature, while the UHI intensity of maximum temperature shows a slow decrease over time. UHI intensity for minimum temperature has a strong positive correlation with the increase in the urban population and the expansion of the yearly construction area. Seasonal analyses showed the UHI intensity is strongest in winter. This seasonal UHI variation tends to be negatively correlated with the seasonal variation of relative humidity and vapor pressure. Hourly variation reveals that the strongest UHI intensity is observed in the late nighttime or evening, while the weakest is observed during the day.     

1961-2010年四川盆地霾气候特征及影响因子分析

利用1961-2010年四川盆地122个气象站观测资料,分析四川盆地年平均霾日数时空分布特征及霾日数季节和年变化趋势。探讨近50 a四川盆地大气干消光系数、风速、能源消耗和人口等因素与霾日数之间的关系。结果表明：1961-2010年四川盆地122个站年平均霾日数为62.5 d,最多的站可达100.0 d以上。霾日数有明显季节变化,四川盆地冬季霾日数最多（28.4 d）,春、秋季次之,夏季最少（5.9 d）。四川盆地有104个站霾日数年变化呈增加的趋势,其中有71个站通过了置信度99 %的检验,霾日数增加最多的是四川省内江地区的戚远,气候倾向率为42.0 d/10 a;霾日数增加最少的是成都市的新都,气候倾向率为0.4 d/10 a。四川盆地有18个站霾日数年变化呈下降趋势,仅7个站点通过了置信度99 %的信度检验,霾日数减少最多的是四川北部广元地区的南江,气候倾向率为-16.7 d/10 a。霾日数的年变化与大气干消光系数呈显著正相关,与风速呈显著负相关,与四川盆地的能源消耗和人口增长呈显著正相关。     

Characterization and estimation of urban heat island at Toronto: impact of the choice of rural sites

In this study, the urban heat island of Toronto was characterized and estimated in order to examine the impact of the selection of rural sites on the estimation of urban heat island (UHI) intensity (?T _u-r). Three rural stations, King Smoke Tree (KST), Albion Hill, and Millgrove, were used for the analysis of UHI intensity for two urban stations, Toronto downtown (Toronto) and Toronto Pearson (Pearson) using data from 1970 to 2000. The UHI intensity was characterized as winter dominating and summer dominating, depending on the choice of the rural station. The analyses of annual and seasonal trends of ?T _u-r suggested that urban heat island clearly appears in winter at both Toronto and Pearson. However, due to the mitigating effect on temperature from Lake Ontario, the estimated trend of UHI intensity was found to be less at Toronto compared to that at Pearson which has no direct lake effect. In terms of the impacts of the rural stations, for both KST and Millgrove, the trends in UHI intensity were found to be statistically significant and also were in good agreement with the estimates of UHI intensities reported for other large cities in the USA. Depending on the choice of the rural station, the estimated trend for the UHI intensity at Toronto ranges from 0.01°C/decade to 0.02°C/decade, and that at Pearson ranges from 0.03°C/decade to 0.035°C/decade during 1970–2000. From the analysis of the seasonal distribution of ?T _u-r, the UHI intensity was found to be higher at Toronto in winter than that at Pearson for all three rural stations. This was likely accounted for by the lower amount of anthropogenic heat flux at Pearson. Considering the results from the statistical analysis with respect to the geographic and surface features for each rural station, KST was suggested to be a better choice to estimate UHI intensity at Toronto compared to the other rural stations. The analysis from the current study suggests that the selection of a unique urban–rural pair to estimate UHI intensity for a city like Toronto is a critical task, as it will be for any city, and it is imperative to consider some key features such as the physiography, surface characteristics of the urban and rural stations, the climatology such as the trends in annual and seasonal variation of UHI with respect to the physical characteristics of the stations, and also more importantly the objectives of a particular study in the context of UHI effect.     

Climate-induced changes in river water temperature in North Iberian Peninsula

With the surface air temperature (SAT) data at 37 stations on Central Yunnan Plateau (CYP) for 1961–2010 and the Defense Meteorological Satellite Program/Operational Linescan System (DMSP/OLS) nighttime light data, the temporal-spatial patterns of the SAT trends are detected using Sen’s Nonparametric Estimator of Slope approach and MK test, and the impact of urbanization on surface warming is analyzed by comparing the differences between the air temperature change trends of urban stations and their corresponding rural stations. Results indicated that annual mean air temperature showed a significant warming trend, which is equivalent to a rate of 0.17 °C/decade during the past 50 years. Seasonal mean air temperature presents a rising trend, and the trend was more significant in winter (0.31 °C/decade) than in other seasons. Annual/seasonal mean air temperature tends to increase in most areas, and higher warming trend appeared in urban areas, notably in Kunming city. The regional mean air temperature series was significantly impacted by urban warming, and the urbanization-induced warming contributed to approximately 32.3–62.9 % of the total regional warming during the past 50 years. Meantime, the urbanization-induced warming trend in winter and spring was more significant than that in summer and autumn. Since 1985, the urban heat island (UHI) intensity has gradually increased. And the urban temperatures always rise faster than rural temperatures on the CYP.     

石家庄城市与郊县站地面平均最低、最高气温差异

应用石家庄地区17个站1955—2006年逐日最低、最高气温资料,统计分析了16个郊县站与石家庄市区站最低、最高气温的差值。结果表明:各郊县站年平均最低、最高气温均比石家庄市站低,最低气温偏低0.17～2.07℃,16个站平均偏低1.02℃;最高气温偏低0.01～0.55℃,16个站平均偏低0.28℃。郊县站平均最低气温偏低程度在冬季更明显,1月平均达到1.69℃,夏季偏低程度比较弱,但最弱的7月也有0.49℃;最高气温的偏低程度也在冬季明显,但季节性差异没有最低气温大。不论最低气温,还是最高气温,各县(市)站与石家庄市区站之间的差异均存在明显的随时间增大现象,最低气温20世纪90年代初以来增大尤其明显。石家庄市区站地面最低、最高气温记录反映出明显的城市热岛效应影响。     

1980—2009年中国大陆中东部气溶胶-云-辐射变化及其关系

基于中国大陆中东部484个气象站1980—2009年日照时数、总云量、能见度数据,按区域分析了地表太阳辐射长期变化特征及云量和气溶胶对辐射变化的可能影响,深入理解地表太阳辐射变化趋势成因。中国大陆中东部地区地表太阳辐射呈下降趋势（-0.7 Wm-2/10a）。从季节变化分析,下降趋势主要集中于夏季（-2.7 Wm-2/10a）;从区域分析,下降幅度最大的为华北地区（-3.9 Wm-2/10a）,该区云量不明显上升、能见度明显下降,且地表太阳辐射与云量低频部分相关系数（年代际变率）约-0.25,与气溶胶低频部分相关系数达-0.87,以此推测华北地区地表辐射的长期变化是气溶胶与总云量共同作用的结果。华南地区春季辐射上升（4.2 Wm-2/10a）则归因于总云量的下降（-2.1%/10a）。地表太阳辐射与总云量高频部分的相关系数（年际变率）达到-0.85以上,表明地表太阳辐射的年际短期变率主要贡献是来自于总云量的年际变化。     

Identifying Regional Prolonged Low Temperature Events in China

This study examined regional prolonged low temperature (PLT) events in China from the observational station data for the period 1960–2008 using the new criteria. The new definition of a site PLT event is that the daily minimum temperature does not exceed the 10th percentile threshold of the local daily minimum temperature climatology for at least 5 days at a station. The regional PLT event is defined as at least five adjacent stations exhibiting site PLT simultaneously for >5 d. Under the new definition, 552 regional PLT events were identified, and three indices: duration, extent, and intensity, as well as a comprehensive index (CI) were used to quantify the event severity. In addition, geographical patterns and temporal variations of regional PLT events were investigated using three event categories: strong, moderate, and weak. Spatially, strong events were mainly located in the north of Xinjiang and along the Yangtze River to the south of the Yangtze River; moderate events occurred in Xinjiang and south of the Yangtze River; and weak events occurred south of the Yellow River. The variation for the annual frequency of regional PLT events in China in the last 49 years showed a significant decreasing trend with a rate of-1.99 times per decade, and the significant transition decade was the 1980s.     

城市化对安徽省极端气温事件的影响

利用卫星遥感资料对安徽省46个台站进行分类,统计分析了城市站、郊区站和乡村站1961-2010年的极端气温指数的年和季节的变化趋势及其受城市化的影响和贡献。结果表明：1) 近50年来,除最高气温年极大值外,其他气温年极值都有明显上升趋势,以最低温度极小值最显著;暖日、暖夜天数呈增加趋势,而冷日、冷夜天数呈减少趋势,其中暖夜和冷夜变化趋势更明显;各极端指数的变化趋势总体均表现为城市站较乡村站更显著,郊区站介于两者之间。2) 城市站最高气温极大值、最低气温极大值和最低气温极小值因城市化造成的增温分别为0.144、0.184和0.161℃/10a,增温贡献率分别达100.0%、58.8%和21.6%,但城市化对最高气温极小值影响较弱;季节尺度的城市化影响基本都造成增温,春、秋季更明显,而增温贡献率以春、夏季更明显,冬季最小或不显著。3) 城市化效应使暖日和暖夜天数增加、冷夜天数减少的趋势更加显著,城市化影响贡献率都在40%以上;暖日、暖夜和冷夜天数的城市化影响贡献率都在冬季最小或不显著。     

CHARACTERISTICS AND TRENDS OF CLIMATIC EXTREMES IN CHINA DURING 1959–2014

The spatial and temporal variations of daily maximum temperature(Tmax), daily minimum temperature(Tmin), daily maximum precipitation(Pmax) and daily maximum wind speed(WSmax) were examined in China using Mann-Kendall test and linear regression method. The results indicated that for China as a whole, Tmax, Tmin and Pmax had significant increasing trends at rates of 0.15℃ per decade, 0.45℃ per decade and 0.58 mm per decade,respectively, while WSmax had decreased significantly at 1.18 m·s~(-1) per decade during 1959—2014. In all regions of China, Tmin increased and WSmax decreased significantly. Spatially, Tmax increased significantly at most of the stations in South China(SC), northwestern North China(NC), northeastern Northeast China(NEC), eastern Northwest China(NWC) and eastern Southwest China(SWC), and the increasing trends were significant in NC, SC, NWC and SWC on the regional average. Tmin increased significantly at most of the stations in China, with notable increase in NEC, northern and southeastern NC and northwestern and eastern NWC. Pmax showed no significant trend at most of the stations in China, and on the regional average it decreased significantly in NC but increased in SC, NWC and the mid-lower Yangtze River valley(YR). WSmax decreased significantly at the vast majority of stations in China, with remarkable decrease in northern NC, northern and central YR, central and southern SC and in parts of central NEC and western NWC. With global climate change and rapidly economic development, China has become more vulnerable to climatic extremes and meteorological disasters, so more strategies of mitigation and/or adaptation of climatic extremes,such as environmentally-friendly and low-cost energy production systems and the enhancement of engineering defense measures are necessary for government and social publics.     

Changes in daily climate extremes in the arid area of northwestern China

There has been a paucity of information on trends in daily climate and climate extremes, especially for the arid region. We analyzed the changes in the indices of climate extremes, on the basis of daily maximum and minimum air temperature and precipitation at 59 meteorological stations in the arid region of northwest China over the period 1960–2003. Twelve indices of extreme temperature and six indices of extreme precipitation are examined. Temperature extremes show a warming trend with a large proportion of stations having statistically significant trends for all temperature indices. The regional occurrence of extreme cool days and nights has decreased by ?0.93 and ?2.36 days/decade, respectively. Over the same period, the occurrence of extreme warm days and nights has increased by 1.25 and 2.10 days/decade, respectively. The number of frost days and ice days shows a statistically significant decrease at the rate of ?3.24 and ?2.75 days/decade, respectively. The extreme temperature indices also show the increasing trend, with larger values for the index describing variations in the lowest minimum temperature. The trends of Min Tmin (Tmax) and Max Tmin (Tmax) are 0.85 (0.61) and 0.32 (0.17)?°C/decade. Most precipitation indices exhibit increasing trends across the region. On average, regional maximum 1-day precipitation, annual total wet-day precipitation, and number of heavy precipitation days and very wet days show insignificant increases. Insignificant decreasing trends are also found for consecutive dry days. The rank-sum statistic value of most temperature indices exhibits consistent or statistically significant trends across the region. The regional medians after 1986 of Min Tmin (Tmax), Max Tmin (Tmax), warm days (nights), and warm spell duration indicator show statistically more larger than medians before 1986, but the frost days, ice days, cool days (nights), and diurnal temperature range reversed. The medians of precipitation indices show insignificant change except for consecutive dry days before and after 1986.     

Trends, stability and stress in the Colombian Central Andes

Mountain ecosystems have been projected to experience faster rates of warming than surrounding lowlands. These changes in climatic conditions could have significant impacts on high-altitude Andean environments, affecting the quality and magnitude of their economic and environmental services. Even though long-term data in these regions are limited, it is important to identify any discernible long-term trends in local climatic conditions. Time series of several variables were analyzed to detect statistically significant long-term linear trends that occurred over recent years in a páramo ecosystem of the Colombian Central Andes. Records included cloud characteristics, sunshine, rainfall, minimum and maximum temperatures, diurnal temperature range, and relative humidity. Conditions of atmospheric stability were also explored. Total sunshine exhibited decreasing trends ranging from ?3.7 to ?8.5% per decade at altitudes around the pluviometric optimum. The strongest changes in sunshine occurred during the December-January-February season. Mean relative humidity observed at altitudes around and below this threshold showed increasing trends of +0.6 to +0.7% per decade. Annual rainfall and mean relative humidity above the optimum showed decreasing trends ranging from ?7 to ?11% per decade and from ?1.5 to ?3.6% per decade, respectively. Minimum temperatures on the coldest days and maximum temperatures on the warmest days exhibited increasing trends at all altitudes ranging from +0.1 to +0.6, and from +0.2 to +1.1°C per decade, respectively. Increases in minimum and maximum temperatures at higher altitudes were significantly greater than those observed in average at lower altitudes. The strongest changes in minimum temperatures, particularly, occurred during the December–January–February and June–July–August dry seasons. All these changes suggest that atmospheric conditions in the area are shifting from statically unstable conditions to conditionally unstable or statically stable conditions. Observed historical trends indicate that climate impacts and other human activities have stressed these unique and fragile environments.     

Urban-rural fog differences in Belgrade area,Serbia

Urban/rural fog appearance during the last 27 years in the Belgrade region is analysed using hourly meteorological records from two meteorological stations: an urban station at Belgrade-Vra?ar (BV) and a rural station at Belgrade-Airport (BA). The effects of urban development on fog formation are discussed through analysis of fog frequency trends and comparison with a number of meteorological parameters. The mean annual and the mean annual minimum temperatures were greater at the urban BV station than at the rural BA station. The mean monthly relative humidity and the mean monthly water vapour pressure were greater at the rural than urban station. During the period of research (1988–2014), BA experiences 425 more days with fog than BV, which means that BV experiences fog for 62.68% of foggy days at BA. Trends in the number of days with fog were statistically non-significant. We analysed the fog occurrence during different types of weather. Fog in urban BV occurred more frequently during cyclonal circulation (in 52.75% of cases). In rural BA, the trend was the opposite and fog appeared more frequently during anticyclonic circulation (in 53.58% of cases). Fog at BV occurred most frequently in stable anticyclonic weather with light wind, when a temperature inversion existed (21.86% of cases). Most frequently, fog at BA occurred in the morning and only lasted a short time, followed by clearer skies during the anticyclonic warm and dry weather (22.55% of cases).     

湘潭市大雾的时空分布特征及其发生的天气形势分类

利用1959—2012年湘潭3个观测站资料,采用线性倾向估计、普查分析等方法,研究了湘潭市大雾的时空分布特征并将大雾发生的天气形势进行分类。结果表明:全市大雾年平均日数为18.9天,辖区内湘乡最多(25.7天),韶山最少(11.8天)。所辖3站的大雾日数整体均呈逐年增加的趋势,变化速率在1.13天/10a~2.42天/10a,1977—2002年为大雾多发时期;20世纪90年代以前每年代以4~6天的趋势递增,进入21世纪后年大雾日数呈下降趋势。湘潭连续大雾天气过程最长持续时间为12 d,80%的连续大雾为2 d。低空有下沉逆温、地面有辐射逆温,是连续大雾产生的重要条件。形成大雾的500 h Pa形势场特征主要有NW型(槽后西北气流型),SW—NW型(低槽过境型),W型(持续平直气流型),SW型(槽前西南气流型),NW—W型(由脊转槽型)等5种;地面形势主要有两种类型:一种是地面上受小高压控制或处于均匀场中,另一种为地面高压底后部、低压倒槽中或弱冷锋前。     

Effect of data homogenization on estimate of temperature trend: a case of Huairou station in Beijing Municipality

Daily minimum temperature (Tmin) and maximum temperature (Tmax) data of Huairou station in Beijing from 1960 to 2008 are examined and adjusted for inhomogeneities by applying the data of two nearby reference stations. Urban effects on the linear trends of the original and adjusted temperature series are estimated and compared. Results show that relocations of station cause obvious discontinuities in the data series, and one of the discontinuities for Tmin are highly significant when the station was moved from downtown to suburb in 1996. The daily Tmin and Tmax data are adjusted for the inhomogeneities. The mean annual Tmin and Tmax at Huairou station drop by 1.377°C and 0.271°C respectively after homogenization. The adjustments for Tmin are larger than those for Tmax, especially in winter, and the seasonal differences of the adjustments are generally more obvious for Tmin than for Tmax. Urban effects on annual mean Tmin and Tmax trends are ?0.004°C/10 year and ?0.035°C/10 year respectively for the original data, but they increase to 0.388°C/10 year and 0.096°C/10 year respectively for the adjusted data. The increase is more significant for the annual mean Tmin series. Urban contributions to the overall trends of annual mean Tmin and Tmax reach 100% and 28.8% respectively for the adjusted data. Our analysis shows that data homogenization for the stations moved from downtowns to suburbs can lead to a significant overestimate of rising trends of surface air temperature, and this necessitates a careful evaluation and adjustment for urban biases before the data are applied in analyses of local and regional climate change.     

基于气温日较差的西宁热岛效应研究

本文选取西宁(城区)、湟中(南郊)、互助(北郊)3个气象观测站1986～2015年最高和最低温度资料,研究分析基于气温日较差的西宁热岛效应。结果表明,近30年城区、北郊年平均日较差总体呈下降趋势,下降幅度分别为0.15和0.29℃/10a,年代际分析表明21世纪10年代城区日较差距平偏低最多为0.73℃,日较差存在周末效应;城区日较差下降速率快于郊区,日较差变化趋势春季为正,其余各季为负,城区冬季变化显著,大于郊区;城区日较差逐渐减小,说明城市浑浊度逐年增加,热岛效应增强。      

Intensified reduction in summertime light rainfall over mountains compared with plains in Eastern China

Based on daily rainfall data from 1960 to 2007, this study investigated the difference in rainfall trends between seven mountain stations and 21 nearby plain stations in eastern China for the months June–August. The amount and frequency of light rain (≤2.5 mm/day) over the mountain areas showed a greater decreasing trend than over the surrounding plain regions. The trend of light-rainfall frequency at mountain stations is ??4.8%/decade, approximately double that at plain stations (??2.3%/decade). The trend in light-rainfall amount at mountain stations is ??5.0%/decade, approximately three times that at plains station (??1.4%/decade). Reduced wind speed may explain the enhanced decrease in light rainfall over mountain areas through the weakened orographic lifting. Further study is needed to determine whether the precipitation difference between mountain and plain (urban) regions is exacerbated by air pollution in East China through its indirect effects and influence on regional air stability and wind speed.     

北京地区城郊极端温度事件的变化趋势及差异分析

利用北京地区城郊16个气象观测站1979～2008年逐日平均、最高和最低温度的均一化资料,分析了近30年北京地区城、郊区极端温度事件发生频次(强度)的变化趋势,并对比了城郊差异以及城市热岛强度对城郊差异的影响.研究结果显示:从发生频次来看,近30年城区极端低温事件的减小幅度[5.94 d (10 a)-1]高于郊区的减小幅度[-5.28 d (10 a)-1],而极端高温事件的增加幅度在城区[4.33 d (10 a)-1]和郊区[4.42 d (10 a)-1]之间差别不大,定量化的诊断结果进一步证明了城区和郊区在极端温度事件发生频次上的差别很小.从发生强度来看,近30年城区极端温度事件的年平均发生强度明显高于郊区,但在变化趋势上,城区极端低温事件的减弱幅度略高于极端高温事件的增强幅度,相差0.042℃(10 a)-1,而在郊区极端低温事件的减弱幅度却略低于极端高温事件的增强幅度,相差0.052℃(10 a)-1.城郊差异的定量化分析结果表明,极端温度事件在城区强度一般大于郊区强度,城区与郊区强度差值均为正值(除1982年和1985年极端高温事件强度差值为负).热岛强度与极端温度事件城郊差异的相关性统计发现,极端温度事件发生频次和发生强度在城郊之间的差别与热岛强度均没有明显的相关特征,该结果说明城市热岛效应对北京超大城市市区和郊区影响基本一致,其差异性是有限的.