ACE‐2 multiple angle micro‐pulse lidar observations from Las Galletas, Tenerife, Canary Islands

Multiple‐angle micro‐pulse lidar (MPL) observations were made at Las Galletas on Tenerife, Canary Islands during the Aerosol Characterization Experiment‐2 (ACE‐2) conducted June–July, 1997. A principal objective of the MPL observations was to characterize the temporal/spatial distributions of aerosols in the region, particularly to identify and profile elevated Saharan dust layers which occur intermittently during the June–July time period. Vertical and slant angle measurements taken 16 and 17 July characterize such an occurrence, providing aerosol backscatter, extinction, and optical depth profiles of the dust layer between 1 and 5 km above mean sea level (MSL). Additionally, horizontal measurements taken in Las Galletas throughout the 6‐week period provide a time profile of the varying aerosol extinction at the surface. This profile exhibits the alternating periods of clean maritime air and pollution outbreaks that typified the region. Horizontal measurements also provide some evidence suggesting the possible influx of Saharan dust from the free troposphere to the surface. This paper presents estimates of aerosol optical properties retrieved from the multi‐angle MPL measurements in addition to an outline of the methodologies employed to obtain these results.     

Evolution of aerosol vertical distribution during particulate pollution events in Shanghai

A set of micro pulse lidar(MPL)systems operating at 532 nm was used for ground-based observation of aerosols in Shanghai in 2011.Three typical particulate pollution events(e.g.,haze)were examined to determine the evolution of aerosol vertical distribution and the planetary boundary layer(PBL)during these pollution episodes.The aerosol vertical extinction coefficient(VEC)at any given measured altitude was prominently larger during haze periods than that before or after the associated event.Aerosols originating from various source regions exerted forcing to some extent on aerosol loading and vertical layering,leading to different aerosol vertical distribution structures.Aerosol VECs were always maximized near the surface owing to the potential influence of local pollutant emissions.Several peaks in aerosol VECs were found at altitudes above 1 km during the dust-and bioburning-influenced haze events.Aerosol VECs decreased with increasing altitude during the local-polluted haze event,with a single maximum in the surface atmosphere.PM2.5 increased slowly while PBL and visibility decreased gradually in the early stages of haze events;subsequently,PM2.5 accumulated and was exacerbated until serious pollution bursts occurred in the middle and later stages.The results reveal that aerosols from different sources impact aerosol vertical distributions in the atmosphere and that the relationship between PBL and pollutant loadings may play an important role in the formation of pollution.     

夏季风爆发前后中国区域对流层顶高度变化特征

利用2008—2014年全国高垂直分辨率的L波段探空资料,统计分析了东亚夏季风爆发前后我国不同区域对流层顶高度变化特征。研究表明:夏季风爆发后,对流层顶高值区向北推进,最大值位于青藏高原南部及其东南部地区;对流层顶高度的向南梯度和向东梯度大值区均由爆发前的30°~40°N北移至40°~50°N;受地面加热和垂直运动的影响,中国东北部和中东部在夏季风爆发后对流层升温,平流层-对流层过渡层降温,大气温度梯度增加,对流层顶上升,其中中国东北部在夏季风爆发前,大气温度廓线为双峰结构,易出现双对流层顶,第一对流层顶较低;中国南部整层大气温度廓线在夏季风爆发后略有增加,对流层顶有所下降。     

RADIATIVE CHARACTERISTICS OF AEROSOLS AT GOLMUD ON THE TIBETAN PLATEAU

The characteristics of atmospheric aerosols in the Golmud desert over the Tibetan (Qinghai-Xizang) Plateau are investigated using the measurements made during the QXPMEX-79.Using spectroscopic observations at the surface and satellite data,the aerosol optical depth is calculated,from which the aerosol size distribution is worked out by means of an inversion method.The effects of vertical distribution of aerosols on irradiance and heating rate profiles are investigated using radiation models in conjunction with the assumption of three idealized aerosol profiles.The effect of aerosols on solar irradiance at the surface is also investigated and the results are compared with the observations.It is shown that the solar irradiance can be reduced by up to 100 W m^-2 in the presence of aerosols,and the heating rate can be increased by 1 Kd^-1.     

Ground‐based lidar measurements of aerosols during ACE‐2: instrument description, results, and comparisons with other ground‐based and airborne measurements

A micro‐pulse lidar system (MPL) was used to measure the vertical and horizontal distribution of aerosols during the Aerosol Characterization Experiment 2 (ACE‐2) in June and July of 1997. The MPL measurements were made at the Izaña observatory (IZO), a weather station located on a mountain ridge (28°18' N, 16°30' W, 2367 m asl) near the center of the island of Tenerife, Canary Islands. The MPL was used to acquire aerosol backscatter, extinction, and optical depth profiles for normal background periods and periods influenced by Saharan dust from North Africa. System tests and calibration procedures are discussed, and an analysis of aerosol optical profiles acquired during ACE‐2 is presented. MPL data taken during normal IZO conditions (no dust) showed that upslope aerosols appeared during the day and dissipated at night and that the layers were mostly confined to altitudes a few hundred meters above IZO. MPL data taken during a Saharan dust episode on 17 July showed that peak aerosol extinction values were an order of magnitude greater than molecular scattering over IZO, and that the dust layers extended to 5 km asl. The value of the dust backscatter–extinction ratio was determined to be 0.027±0.007 sr⁻¹. Comparisons of the MPL data with data from other co‐located instruments showed good agreement during the dust episode.     

全球变暖背景下青藏高原夏季气温在对流层上下反相变化及其与降水和环流的关系

本文利用NCEP/NCAR月平均再分析资料及中国596个测站月降水资料,采用线性倾向估计、经验正交函数分解(EOF)、相关分析、合成分析等方法,对青藏高原夏季对流层气温垂直变化及其与降水和环流的关系进行了分析。气温垂直变化特征分析表明:自1971年以来,青藏高原夏季对流层低层至对流层中上部气温呈现显著增暖趋势,对流层上部气温呈现显著变冷趋势,高原对流层低层至中上部气温及对流层上部气温在年际、年代际尺度上均呈较显著负相关,且均存在2~4 a及8~13 a的周期;夏季青藏高原地区沿27.5°N~40°N平均的气温距平垂直分布的EOF分解第一模态特征向量在对流层表现为"下降温上增温"的反相变化,其时间系数呈显著负趋势,且存在1978年及1994年的突变点。高原夏季气温在对流层的上下反相变化与我国夏季降水的关系在年际、年代际尺度上均显示:当高原对流层低层至对流层中上部升温而对流层上部降温时,我国夏季降水表现为南方型,其中以江南至华南地区降水显著偏多而我国东北地区降水显著偏少为主要分布特征;另外,长江流域的局部地区及我国西北的部分地区降水也明显偏少,而华北东部的局部地区、青藏高原中部及东部地区以及新疆西北部地区降水明显偏多;降水异常分布在年代际尺度上比年际尺度更显著。环流分析显示:当高原对流层低层至对流层中上部升温而对流层上部降温时东亚中高纬度地区为异常高压控制,中低纬度地区受异常低压影响。环流场与降水分布有较好的配置关系。     

青藏高原及其邻近区域穿越对流层顶质量通量的时空演变特征

利用1958~2001年ECMWF资料, 根据Wei公式估算了青藏高原及其邻近区域穿越对流层顶的质量通量 (CTF), 分析了CTF的时空分布特征。分析结果表明: (1) CTF分布呈现纬向型, 在副热带西风急流北侧即对流层顶断裂带中存在东西向的TST (对流层向平流层输送)[CD*2]STT (平流层向对流层输送)[CD*2]TST的波列结构 (水平输送项决定), 而南侧分布决定于垂直输送项。 (2) 在80°E~105°E范围内, 冬春季节, 青藏高原南部及其以南区域为TST, 北部为STT; 夏秋季节, 整个区域几乎由TST所控制。西风急流南侧的CTF主要决定于垂直项, 而北侧主要决定于水平项, 再往北, 垂直项与水平项贡献相当。 (3) 青藏高原与孟加拉湾区域平均CTF在所有季节均为TST, 即有从对流层到平流层净的向上输送, 2月强度最大, 7月为另一个极大值; 两个极大值有不同的产生机制, 后者决定于垂直项, 而前者由水平项决定。 (4) 青藏高原 (及孟加拉湾) 区域年平均CTF在1958~2001年之间的变化趋势在1982年左右出现一个转折: 1982年之前, CTF为递减过程; 而之后CTF为相对较强的增长。上述结果表明: 尽管冬季高原上空为下沉气流, 但高原上空的水平输送项有很强的向上贡献, 这与丛春华等 (2003) 得出的STT不一致。但需要指出的是, 根据Wei公式计算的CTF, 〖JP2〗尤其在急流附近, 对资料中存在的误差十分敏感 (Gettleman等, 2000), 因此青藏高原主体上空在冬季是STT还是TST, 有待于进一步的分析研究。     

干旱区一次春季沙尘过程的大气气溶胶垂直分布结构及其特征

采用微脉冲激光雷达(Micro-Pulse Lidar,MPL)对干旱荒漠代表站张掖站上空一次春季沙尘暴过程的边界层和自由大气的气溶胶分布和大气环境进行了观测。结果表明,气溶胶的垂直廓线可分为高、中、低3层,高层气溶胶出现在5～9km,主要是通过上风方向的高海拔区域或低层气溶胶通过对流等过程突破边界层顶进入自由大气输送而来,其分布高度在一天中随着时间的推移逐渐降低;中层气溶胶位于2.5～4.5km,其消光特性随高度的增加没有明显的变化,具有垂直混合现象;低层气溶胶在2.5km以下,其消光特性随着高度增加反而降低;中、低层气溶胶主要来源于外部源区或当地沙尘源区和沙壤土起沙。气溶胶垂直分布表现出3种形式:在大气稳定条件下,气溶胶随高度增加呈单峰型减小趋势;不稳定条件下随高度增加指数型降低;混合层中随高度增加而保持稳定。由于受边界层日变化的影响,气溶胶分布的上界出现单峰型日变化特征,具体表现为下午较高,早晨较低。     

辽宁地区大气气溶胶粒子的垂直分布特征

详细分析了１９９６、１９９７年春末夏初在辽宁省进行的大气气深胶飞机观测的０～５ｋｍ气深胶粒子数深度和尺度谱分布的垂直、水平变化,初步讨论了它们与温度和相对温度的关系。结果表明,混合层顶上下粒子数深度具有不同的垂直分布特征;粒子谱受不同形成机制影响,表现为多峰分布;水平方向上气溶胶粒子数浓度存在显著变化;温度层结和相对温度对气溶胶粒子的浓度和谱分布有明显影响。     

THE DIRECT EFFECTS OF AEROSOLS AND DECADAL VARIATION OF GLOBAL SEA SURFACE TEMPERATURE ON THE EAST ASIAN SUMMER PRECIPITATION IN CAM3.0

Using the CAM3.0 model, we investigated the respective effects of aerosol concentration increasing and decadal variation of global sea surface temperature(SST) around year 1976/77 on the East Asian precipitation in boreal summer. By doubling the concentration of the sulfate aerosol and black carbon aerosol separately and synchronously in East Asia(100-150 °E, 20-50 °N), the climate effects of these aerosols are specifically investigated. The results show that both the decadal SST changing and aerosol concentration increasing could lead to rainfall decreasing in the center of East Asia, but increasing in the regions along southeast coast areas of China. However, the different patterns of rainfall over ocean and lower wind field over Asian continent between aerosol experiments and SST experiments in CAM3.0 indicate the presence of different mechanisms. In the increased aerosol concentration experiments, scattering effect is the main climate effect for both sulfate and black carbon aerosols in the Eastern Asian summer. Especially in the increased sulfate aerosol concentration experiment, the climate scattering effect of aerosol leads to the most significant temperature decreasing, sinking convection anomalies and decreased rainfall in the troposphere over the central part of East Asia. However, in an increased black carbon aerosol concentration experiment, weakened sinking convection anomalies exist at the southerly position. This weakened sinking and its compensating rising convection anomalies in the south lead to the heavy rainfall over southeast coast areas of China. When concentrations of both sulfate and black carbon aerosols increase synchronously, the anomalous rainfall distribution is somewhat like that in the increased black carbon concentration aerosol experiment but with less intensity.