一次春季强寒潮的降水相态变化分析

应用NCEP 1°×1°资料、常规观测资料、自动站资料、多普勒天气雷达资料,对2007年3月河北省一次早春强寒潮天气背景下的降水多相态转换的成因与雨雪转换的预报进行了分析.结果表明:850hPa及以下蒙古高压和江淮气旋共同作用产生的偏东风导致低层大气温度持续下降,降水性质从雨转为雪.随着江淮气旋入海,高低空风向发生突变,从东北风转为西北风,加上太行山地形作用,使太行山东麓部分地区低层大气出现小幅升温,0℃层高度抬升,致使从雪转为雨.多普勒天气雷达回波图上,0℃层亮带高度的迅速下降,可作为从液态降水向固态降水转换的判据之一.天气学分析表明,当0℃层高度低于950hPa、地面气温在0℃上下、1000hPa温度低于2℃、925hPa温度低于-2℃时,降水性质将从雨向雨夹雪或雪转变.     

Azimuthal variation of the P phase in Icelandic receiver functions

A curious observation has been made on radial receiver functions calculated from teleseisms recorded by 29 broad-band seismometers distributed over Iceland. The arrival time of the direct P phase of the radial receiver functions depends critically upon the azimuth of the teleseismic source. For a seismic station in West Iceland, the direct P  phase of the radial receiver function arrives consistently later for easterly source azimuths than for westerly source azimuths. The reverse applies for stations in East Iceland. In the original seismograms, the delayed P phase of the receiver function appears up to 450 ms later on the radial than on the vertical component. The seismometer locations in East and West Iceland are separated by the Neovolcanic Zone, a constructive plate boundary. The delayed P phases occur for seismic rays travelling across this zone. However, it is not obvious how wave propagation across the plate boundary zone could cause the observed delays. The tentative explanation proposed here involves the regional dip of the Icelandic lava sequences towards the Neovolcanic Zone. A dipping interface at shallow depth results in a P–S converted phase arriving shortly after the P phase. These phases cannot be separated in the radial receiver functions, given the bandwidth of the observed signals. However, a calculation of receiver functions from estimates of the P , SV and SH wavefields clearly reveals a P–S converted phase at about 500 ms for easterly source azimuths in West Iceland and for westerly source azimuths in East Iceland. The amplitudes of the direct P phase and the P–S phase converted at a dipping interface would be expected to vary strongly with azimuth in accordance with the observed behaviour.     

双流县春季气候变化特征分析

利用四川省双流县1965~2008年春季降水、温度资料,分析双流县44年的春季气候变化特征。结果表明:①双流县3~5月降水的变化有1.52年、6.96年、18.36年的主要时间尺度;双流县3~5月温度的变化有10.56年时间尺度。②双流县春季降水的突变发生在20世纪80年代中期,自此以后降水逐渐由多变少;温度的突变发生在20世纪90年代中期,自此以后温度逐渐由偏低变为偏高;降水的突变早于温度的突变。③根据春季降水量和温度的主要时间尺度,估计近期春季降水量可能偏少;近期春季温度总体趋势可能偏高。     

岩石声学参数的实验测量及研究

通过对天然岩芯及人工岩芯的测量,研究２４０ｋＨｚ-１．ＳＭＨｚ频段内的声频散、温度对岩石声速的影响、岩石含水饱和度对岩石声速和声衰减的影响,给出岩石中声衰减与声波频率间关系的最佳拟合,并讨论了裂缝对岩石中声波传播的影响。     

基于Barnes滤波原理的降水场客观分析及尺度分离

基于Barnes滤波原理（又称高斯加权客观分析）,在进行网格点插值的同时,通过选择适当的滤波参数C、G滤去原始场中的短波噪音,使分析结果平稳光滑;另外可通过它构成一带通滤波器,根据实际需要分离出影响天气过程的各种次天气尺度,达到尺度分离的目的。以全国160个国家基准代表站1954—2006年共53a的年平均降水场为例作实例分析,并同用Grads内插函数（Oacres函数）、九点平滑函数（Smth9函数）的绘图结果进行对比分析,结果表明客观分析结果同Grads内插平滑分析结果基本相似,都能反映出我国53a年平均降水场从东南向西北逐渐递减的趋势且与实际情况相符,降水场高值中心位于长江流域及以南的华南等地区,低值中心位于黄河流域以北的广大西部地区。取不同的参数C和G得到的尺度分离后的带通滤波值,既抑止了长波,又抑制了短波,达到较好的尺度分离效果。