面向端元提取的光谱角特征空间图像分块方法

传统的高光谱端元提取算法一般是在高维的光谱特征空间中进行运算,并且图像的全部像元都参与算法,因此运算量偏大,运算效率较低。提出了一种光谱角特征空间的概念,利用图像的空间信息辅助端元提取。图像的全部像元都可以映射到8维的光谱角特征空间中,样本点在特征空间中距离原点的远近表征了其在图像中的位置是否为地物区块的边缘,利用这点可以对高光谱图像进行空间分割。在分割后的每个子块图像内部只选取少数"最纯"像元参与端元提取算法,从而大大降低了端元提取的计算复杂度。     

合肥市雾日气象条件分析

利用合肥市气象观测站2005—2009年常规观测资料,统计分析了该市雾的月、季变化,及雾日地面气象要素特征;同时,应用后向轨迹和聚类分析的方法,研究了雾日大尺度输送特征。结果表明,合肥雾日数12月最多,7月最少;雾日局地气象条件表现为高湿、微风、偏东或西北风向;合肥雾日与输送形势关系密切,雾日近地层(10 m)以偏东方向的轨迹最多,在边界层中上部(1 000 m)以西南轨迹和本地轨迹最多。     

中国地区硫酸盐气溶胶的分布特征

建立了一个三维欧拉型排放/输送/转化/沉降模式,其主要特点是采用独立的气相化学子模式计算各种不同条件下SO2的转化速率,建立转化率的数据库,直接为欧拉模式调用,并对液相化学和湿清除过程进行了参数化处理。这样使模式既考虑了大气化学过程的非线性,又具有较高的计算效率,能够方便地计算年（季）尺度的硫酸盐气溶胶SO2-4的浓度分布。利用中尺度气象模式MM4和欧拉输送模式模拟了中国地区硫酸盐气溶胶的时空分布,其结果可以方便地应用到考虑硫酸盐气溶胶气候效应的气候模式中去。     

区域酸性沉降的数值研究 II. 个例模拟和试验

利用建立的区域酸性污染物沉降模式，配合中尺度模式MM4预报的气象场，以1991年6月12～14日淮河流域的一次降雨过程作为实例，对我国东半部及其相邻地区的酸沉降进行了数值模拟和试验研究。结果表明，模式基本上能够模拟出区域酸性沉降的特征，具有良好的综合模拟性能和广阔的应用前景。     

东亚冬季风异常对区域气溶胶分布的影响

气溶胶已是东亚地区最主要的大气污染物之一,其时空分布会受到东亚季风气候的影响.利用2000～2014年MODIS/AOD (Moderate-resolution Imaging Spectroradiometer/Aerosol Optical Depth)和NCEP月平均气象场再分析资料,本研究分析了东亚冬季风长期...     

基于无人机垂直观测的南京PM2.5污染个例研究

为了深入理解边界层内气温、相对湿度对PM2.5垂直分布和近地面污染的影响,本文使用搭载了多参数大气环境探测传感器的无人机对南京2017年12月3～4日和12月23～24日的PM2.5浓度、气温和相对湿度进行垂直观测,结合对气象数据的分析及HYSPLIT4（Hybrid Single Particle Lagrangian Integrated Trajectory version 4）轨迹计算模式的应用,对这两次PM2.5的垂直分布特征及污染过程的成因进行了分析。结果表明,PM2.5浓度和相对湿度呈明显的正相关关系,在12月23～24日的6次观测中相关系数均值达到0.96。逆温层下部,PM2.5浓度和相对湿度高且垂直差异较小;逆温层以上,PM2.5浓度和相对湿度随高度升高而迅速降低。由于大气扩散条件较差,导致PM2.5在华北平原南部不断累积,之后受到高压系统的影响分别向南和东南转移。这两次PM2.5污染过程都明显受到外部输送的影响,大气逆温对PM2.5和水汽的向上输送有明显的抑制作用,外部输送和局部逆温是导致这两次PM2.5污染的主要原因。     

非线性大气化学动力学方程组数值解法的比较

大气化学模式中描述化学反应动力学的是一组高度耦合、刚性、非线性的常微分方程组,高效精确的计算方法在空气质量模拟预测、气候化学相互作用研究中尤为重要。本文介绍了求解此类非线性常微分方程组(ODEs)的七种常见的数值计算方法,包括QSSA、MQSSA、HYBRID、MHYBRID、LSODE、GongCho以及TWOSTEP方法,并基于同一反应机理进行24 h的数值模拟,通过对模拟结果的讨论分析,比较了各种方法的优劣。研究结果表明,就计算效率而言,QSSA方法最为省时。就计算精度而言,LSODE方法最优。若综合考虑计算精度和效率,HYBRID、MHY-BRID是比较适中的数值解法。     

无机盐热力学平衡模式的简化及其应用

利用查表法简化无机盐热力学平衡模式ISORROPIA,对温度、相对湿度、总氨(NH3+NH4+)、总氮(HNO3+NO3-)和总硫(H2SO4+SO42-)等5个影响因子进行分档,建立不同组合情况下硫酸盐、硝酸盐、铵盐等物种平衡浓度的查算表。在区域气候化学模式系统(RegCCMS)中,分别用查算表检索法和直接耦合热力学平衡模式的方法模拟我国2003年1月和7月硝酸盐气溶胶的浓度分布。结果表明:查表法既能显著提高计算效率,在无机盐模拟性能方面又与直接耦合法保持较好的一致性,在气溶胶气候效应研究方面具有良好的应用前景。     

Indirect radiative forcing and climatic effect of the anthropogenic nitrate aerosol on regional climate of China

The regional climate model (RegCM3) and a tropospheric atmosphere chemistry model (TACM) were coupled, thus a regional climate chemistry modeling system (RegCCMS) was constructed, which was applied to investigate the spatial distribution of anthropogenic nitrate aerosols, indirect radiative forcing, as well as its climatic effect over China. TACM includes the thermodynamic equilibrium model ISORROPIA and a condensed gas-phase chemistry model. Investigations show that the concentration of nitrate aerosols is relatively high over North and East China with a maximum of 29 μg m^-3 in January and 8 μg m^-3 in July. Due to the influence of air temperature on thermodynamic equilibrium, wet scavenging of precipitation and the monsoon climate, there are obvious seasonal differences in nitrate concentrations. The average indirect radiative forcing at the tropopause due to nitrate aerosols is -1.63 W m^-2 in January and -2.65 W m^-2 in July, respectively. In some areas, indirect radiative forcing reaches $-$10 W m^-2. Sensitivity tests show that nitrate aerosols make the surface air temperature drop and the precipitation reduce on the national level. The mean changes in surface air temperature and precipitation are -0.13 K and -0.01 mm d^-1 in January and -0.09 K and -0.11 mm d^-1 in July, respectively, showing significant differences in different regions.     

Eddy Covariance Tilt Corrections over a Coastal Mountain Area in South-east China: Significance for Near-Surface Turbulence Characteristics

Turbulence characteristics of an atmospheric surface layer over a coastal mountain area were investigated under different coordinate frames.Performances of three methods of coordinate rotation:double rotation(DR),triple rotation(TR),and classic planar-fit rotation(PF) were examined in terms of correction of eddy covariance flux.Using the commonly used DR and TR methods,unreasonable rotation angles are encountered at low wind speeds and cause significant run-to-run errors of some turbulence characteristics.The PF method rotates the coordinate system to an ensemble-averaged plane,and shows large tilt error due to an inaccurate fit plane over variable terrain slopes.In this paper,we propose another coordinate rotation scheme.The observational data were separated into two groups according to wind direction.The PF method was adapted to find an ensemble-averaged streamline plane for each group of hourly runs with wind speed exceeding 1.0 m s 1.Then,the coordinate systems were rotated to their respective bestfit planes for all available hourly observations.We call this the PF10 method.The implications of tilt corrections for the turbulence characteristics are discussed with a focus on integral turbulence characteristics,the spectra of wind-velocity components,and sensible heat and momentum fluxes under various atmospheric stabilities.Our results show that the adapted application of PF provides greatly improved estimates of integral turbulence characteristics in complex terrain and maintains data quality.The comparisons of the sensible heat fluxes for four coordinate rotation methods to fluxes before correction indicate that the PF10 scheme is the best to preserve consistency between fluxes.