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61.
《Atmospheric Research》2010,95(4):564-578
Scattering of electromagnetic waves from homogeneous or coated spheres can be computed in a mathematically exact way using the Mie theory. Therefore, for many approaches in remote sensing, frozen hydrometeors are parameterized as ice spheres. However, many frozen hydrometeors have non-spherical overall shapes and lack a spherically symmetric internal structure. They exist in a huge variety of shapes and exhibit different mixtures of ice, water and air. Therefore it is desirable to accurately compute scattering from non-spherical particles in order to clearly understand the effect the shape of a hydrometeor has on its scattering pattern.In this study, single scattering parameters like scattering cross section, absorption cross section, and asymmetry factor were calculated for frozen hydrometeors using the Discrete Dipole Approximation (DDA). The particles were modeled as hexagonal plates, columns, needles and dendrites by applying known dimensional relationships. The calculations were carried out over a wide range of centimeter and millimeter-wavelengths (1 GHz to 300 GHz), since millimeter-wave radiometers are highly sensitive to scattering by frozen hydrometeors in the atmosphere.The study results show that for size parameters < 1 (a ratio between wavelength and particle size) the scattering cross section of randomly orientated ice crystals is close to that of an equal volume ice sphere. Absorption cross section and asymmetry factor of non-spherical particles however are up to twice as high as that of equal volume ice spheres. Further the influence of the assumed model for the refractive index of ice at microwave wavelengths on the scattering parameters is investigated. 相似文献
62.
Many low-order modeling studies indicate that there may be multiple equilibria in the atmosphere induced by thermal and topographic forcings. However, most work uses uncoupled atmospheric model and just focuses on the multiple equilibria with distinct wave amplitude, i.e., the high- and low-index equilibria. Here, a low-order coupled land–atmosphere model is used to study the multiple equilibria with both distinct wave phase and wave amplitude. The model combines a two-layer quasi-geostrophic channel model and an energy balance model. Highly truncated spectral expansions are used and the results show that there may be two stable equilibria with distinct wave phase relative to the topography: one (the other) has a lower layer streamfunction that is nearly in (out of) phase with the topography, i.e., the lower layer ridges (troughs) are over the mountains, called ridge-type (trough-type) equilibria. The wave phase of equilibrium state depends on the direction of lower layer zonal wind and horizontal scale of the topography. The multiple wave phase equilibria associated with ridge- and trough-types originate from the orographic instability of the Hadley circulation, which is a pitch-fork bifurcation. Compared with the uncoupled model, the land–atmosphere coupled system produces more stable atmospheric flow and more ridge-type equilibrium states, particularly, these effects are primarily attributed to the longwave radiation fluxes. The upper layer streamfunctions of both ridge- and trough-type equilibria are also characterized by either a high- or low-index flow pattern. However, the multiple wave phase equilibria associated with ridge- and trough-types are more prominent than multiple wave amplitude equilibria associated with high- and low-index types in this study. 相似文献
63.
Minzhong Wang Wenshou Wei Qing He Shigong Wang Quan Ren Yan Geng Ling Zhao 《Meteorology and Atmospheric Physics》2014,125(1-2):63-73
Using the multi-source observation data from wind-profiling radar, microwave radiometer, Doppler weather radar, etc. during the blizzard event in 19–20 March 2012 in Urumqi, this paper analyzed the detailed characteristics of the atmospheric dynamics, thermodynamics, intensity and water vapor during the process of this blizzard weather. The findings suggest: (1) in the course of the blizzard weather, the near-surface atmosphere is mainly dominated by northwest airflows, the wind speed and relative humidity increase rapidly, temperature drops and air pressure ascends; (2) the blizzard weather this time is accompanied by cold front system whose entering time is about 16:00 BT 19 March; the shear line that develops from low to high is the position height of the frontal zone, and the variation of the high-level frontal zone directly reflects the altitude and layers where cold and warm air masses interact; (3) the radar equivalent reflectivity factor of the snowstorm process changes within the range 8–25 dBZe and its large-value zone is correlated well with the blizzard duration, the height for the formation of rain (snow) particles and the snow intensity; (4) before the occurrence of the blizzard, atmosphere is in the state of high temperature and high humidity, the maximum vapor density is around 6 g m?3, water vapor mainly stays under the height of 5,000 m; affected by cold front system, cold airs gradually lift warm and moist airs so that the vapor condenses and deposits into water drops and snow particles, forming the snowstorm in the end. 相似文献
64.
The Impacts of Two Types of El Ni(n)o on Global Ozone Variations in the Last Three Decades 总被引:1,自引:0,他引:1
The effects of E1Nifio Modoki events on global ozone concentrations are investigated from 1980 to 2010 E1 Nifio Modoki events cause a stronger Brewer-Dobson (BD) circulation which can transports more ozone-poor air from the troposphere to stratosphere, leading to a decrease of ozone inthe lower-middle stratosphere from 90~S to 90~N. These changes in ozone concentrations reduce stratospheric column ozone. The reduction in stratospheric column ozone during E1 Nifio Modoki events is more pronounced over the tropical eastern Pacific than over other tropical areas because transport of ozone-poor air from middle-high latitudes in both hemispheres to low latitudes is the strongest between 60°W and 120°W. Because of the decrease in stratospheric column ozone during E1 Nifio Modoki events more UV radiation reaches the tropical troposphere leading to significant increases in tropospheric column ozone An empirical orthogonal function (EOF) analysis of the time series from 1980 to 2010 of stratospheric and tropospheric ozone monthly anomalies reveals that: E1 Nifio Modoki events are associated with the primary EOF modes of both time series. We also found that E1 Nifio Modoki events can affect global ozone more significantly than canonical E1 Nifio events. These results imply that E1 Nifio Modoki is a key contributor to variations in global ozone from 1980 to 2010. 相似文献
65.
高云和气溶胶辐射效应对边界层的影响 总被引:10,自引:4,他引:6
通过WRF(Weather Research and Forecasting) 模式嵌套包含了高云和气溶胶辐射效应的大气边界层模式, 结合激光雷达资料, 进行数值模拟, 定量分析高云和气溶胶辐射效应对城市边界层的影响。模式能很好地模拟出在高云和气溶胶辐射效应下城市边界层的特征。夜间, 气溶胶在低层起到保温作用, 高云使得保温作用得到加强, 地表增温达1.5 K。中高层, 气溶胶降低所在气层温度, 高云使得降温幅度减少, 降温达0.2~0.7 K。白天, 高云和气溶胶减少到达地面的太阳短波辐射, 导致低层温度降低, 地表降温达1.3 K。中高层, 气溶胶加热所在的气层, 高云使得这一增温幅度减少, 在500 m处增温最大, 达0.85 K。无论白天还是夜间, 气溶胶的辐射效应都会抵消一部分形成山谷风的热力条件, 使得中低层的风速减少, 这种影响在白天显得尤为明显。高云的存在使得这种抵消得到少量的补偿。 相似文献
66.
利用渤海沿岸微波辐射计、风廓线雷达、四分量辐射仪和超声风速仪等多种观测反演资料,并结合常规站点气象资料,卫星云图,浮标气象水文观测和FNL(Final)再分析资料研究了2016年12月17~19日一次环渤海大雾个例产生的天气水文条件以及边界层垂直分层的辐射和湍流特征。研究发现:(1)此次大雾出现在大陆低压前部、入海高压后部的西南低空急流控制区域,与强急流相伴的暖湿平流输送为雾区提供了稳定的逆温和持续的水汽积累,非常有利于大雾天气的形成;(2)水汽通量的分布与低空急流的移动密切相关,近地面比湿的增速与低空急流的强度成正比;(3)由于低空急流的水汽输送增湿了环渤海低层大气,从而增强了大气辐射的衰减效应,导致雾形成前向下短波辐射逐渐减小,向下长波辐射不断增加,净辐射在大雾形成后趋近于零;(4)逆温有效抑制了湍流的发展,近地层湍流动能和摩擦速度微弱。 相似文献
67.
A differential optical absorption spectroscopy (DOAS)-like algorithm is developed to retrieve the column-averaged dry-air mole fraction of carbon dioxide from ground-based hyper-spectral measurements of the direct solar beam. Different to the spectral fitting method, which minimizes the difference between the observed and simulated spectra, the ratios of multiple channel-pairs——one weak and one strong absorption channel——are used to retrieve X CO2 from measurements of the shortwave infrared (SWIR) band. Based on sensitivity tests, a super channel-pair is carefully selected to reduce the effects of solar lines, water vapor, air temperature, pressure, instrument noise, and frequency shift on retrieval errors. The new algorithm reduces computational cost and the retrievals are less sensitive to temperature and H2O uncertainty than the spectral fitting method. Multi-day Total Carbon Column Observing Network (TCCON) measurements under clear-sky conditions at two sites (Tsukuba and Bremen) are used to derive X CO2 for the algorithm evaluation and validation. The DOAS-like results agree very well with those of the TCCON algorithm after correction of an airmass-dependent bias. 相似文献
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69.
Asian-dust (yellow-sand) phenomena observed in Japan have been increasing in recent years, especially from 2000 to 2002. The main cause is severe dust events in arid and semi-arid regions of northeast Asia. The dust source area in northeast Asia (target area: 35°–45°N and 100°–115°E) was identified with reference to past results, and the relationship between the yellow-sand phenomena observed in Japan and dust outbreaks in the target area was examined during the springtime (March to May) from 1993 to 2002. The annual change in the number of dust phenomena observed in Japan agreed well with the Dust Storm Frequency (DSF) in the target area (R2 = 0.8796). Even though strong wind (≧7.0 m s−1) has a profound effect on dust storms (R2 = 0.515), coverage of the Normalized Differential Vegetation Index (NDVI), ranging from 0 to 0.1 (bare land with snow cover) and 0.1 to 0.2 (bare land) in April, also affected dust storms in the target area (R2 = 0.486 and 0.418). 相似文献
70.
内蒙古科尔沁沙地起沙近地层动力学阈值的试验研究 总被引:4,自引:0,他引:4
利用内蒙古科尔沁沙地沙尘暴探测与监测试验站2008年和2009年春季沙尘和近地层观测资料,研究了不同沙尘天气条件下沙尘浓度随摩擦速度的变化规律,对比分析了不同天气(晴天、扬沙、沙尘暴和强沙尘暴)入射短波辐射和净辐射的演变,并利用两层高度沙尘浓度差,区分局地起沙和非局地起沙,有效地避免了沙尘水平输送引起的起沙阈值的低估。结果表明,起沙前,摩擦速度和沙尘浓度数值都较低;临近起沙阶段,摩擦速度迅速增大而沙尘浓度基本保持不变;起沙时,摩擦速度数值较高,沙尘浓度迅速增大;沙尘天气减弱阶段,沙尘浓度随摩擦速度近似呈线性减小。科尔沁沙地春季临界起沙摩擦速度u*t和临界起沙风速ut分别为0.62m.s-1和9.5m.s-1,扬沙、沙尘暴和强沙尘暴天气的起沙阈值依次略有增加。与晴天天气相比,沙尘天气到达地面的短波辐射和净辐射明显减少。 相似文献