1951-2006年黑龙江省积雪初终日期变化特征分析   总被引：3，自引：2，他引：1  

李栋梁  刘玉莲  于宏敏  李永生 《冰川冻土》2009,31(6):1011-1018

利用黑龙江省1951-2006年积雪初终日期资料, 采用统计方法研究了黑龙江省积雪初终日期的时空变化特征. 结果表明: 黑龙江省多年平均有5.5个月的可积雪期, 积雪初日北早南晚, 南北相差1个月;终日南早北晚, 南北相差1.3个月. 积雪初日推后1.9 d·(10a)~(-1), 终日提早1.6 d·(10a)~(-1). 积雪初/终日期的退后/提前主要在较低纬度的平原地区.  相似文献   

影响中国的热带气旋极端事件年代际变化   总被引：1，自引：0，他引：1  

赵珊珊  王小玲 《气候变化研究进展》2012,8(1):16-21

利用1949—2009年影响中国的热带气旋风雨资料以及登陆信息,研究影响热带气旋极端事件的年代际变化特征。结果表明：热带气旋登陆极端偏早或偏晚事件在1970和2000年代发生较少。热带气旋登陆强度（中心附近最大风力和最低气压）极端事件在2000年代发生频数最高。热带气旋降水影响时间极端事件在1970年代频数最多,大风影响时间极端事件在1980年代频数最多。日降水量和过程降水量的极值站数在1960年代最多,日最大风速极值站数在1980年代最多。  相似文献   

利用P波初动测定地震计水平分向的定向偏差     

山长仑  李霞  范培乐  李亚军  于澄  蔡伟光  赵淑华 《地震地磁观测与研究》2012,33(5):231-235

基于P波质点振动方式和初动方向,设计一种测定地震计水平分向定向偏差的方法。通过旋转两水平分向波形获取P波优势能量方向,将旋转角度与地震方位角进行比较,得到地震计水平分向偏离正北方向的位置。再以地震计垂直向初动和已知震中确定台站初始速度的方向（即向源或离源方向）,依此初始速度方向在地震计坐标系中的位置,与水平分向实际记录初动符号所代表的方向进行确认,即可认定地震计水平分向的极性,进而确定地震计水平分向任一极性偏离的角度。  相似文献   

民航飞机气象资料的应用及探讨   总被引：1，自引：0，他引：1  

沈越婷  向卫国 《成都信息工程学院学报》2012,27(1):97-107

为了将AMDAR资料应用于常规观测预报中,对天气系统的演变特征进行更细微的监测,利用2011年5月1~3日的AMDAR资料,分析AMDAR时空分布特点;对比气象常规高空观测实际,研究AMDAR资料处理技术,得出具体算法,并结合2011年5月1~3日常规高空观测资料分析天气形势,看出常规高空观测中显示的1日20时移出盆地的高原东部至盆地上空的浅槽于1日14时就已经移出盆地了,延安伸出的槽在14时也已出现。研究结果表明,高空气压的计算可直接用等温大气中的压高方程代替;AMDAR资料应用于常规高空观测可以得到比常规高空观测更为细致的结果。  相似文献   

QBO 与南海夏季风爆发的关系   总被引：1，自引：1，他引：0  

梁维亮  简茂球  乔云亭 《热带气象学报》2012,(2):237-242

利用1979—2001 年ECMWF 再分析资料和NOAA 海温资料,通过相关分析和合成分析等统计方法,分析了平流层准两年周期振荡(QBO)与南海夏季风建立时间的关系。结果表明,QBO 位相与南海夏季风爆发时间有显著的相关关系:超前南海夏季风爆发约18 个月的QBO 西(东)风位相对应着季风爆发时间偏早(晚)。QBO 与南海夏季风爆发的联系要比ENSO 与南海夏季风爆发的联系更密切。   相似文献   

2007～2010年云南GPS观测大气可降水量特征分析   总被引：2，自引：0，他引：2  

海云莎  孙绩华  陈新梅 《云南地理环境研究》2011,23(2):78-84

利用最新云南地基GPS站观测和探空观测资料分析表明:GPS/PWV和探空大气可降水量变化趋势一致,相关性好;云南省GPS/PWV年内干湿季气候特征分明,湿季开始前GPS/PWV月变率小于干季开始前的月变率;全省GPS/PWV年平均日变化峰值和谷值出现时间一致,勐腊、蒙自和昆明具有准双峰型特征;勐腊站干季、湿季日变化明显不同,其余测站干季和湿季的PWV日变化特征与全年平均日变化特征基本一致。GPS/PWV资料能够反应云南雨季开始期时空演变趋势。  相似文献   

Populating digital earth: improving access to Chinese remote sensing data for terrestrial applications     

《International Journal of Digital Earth》2013,6(12):952-968

Global change has a significant impact on the lives of humankind. Earth observation can help to better understand our earth and cope with global change. With the availability of more reliable environmental data sets, digital earth is becoming a popular way to monitor the Earth and provide information to researchers and decision makers on environment protection, disaster mitigation, and social benefits. Therefore, accessing data with lowering costs is essential for digital earth. Nevertheless, there are big challenges in ensuring the feasibility of access to Chinese remote sensing data. This paper outlines some of the main challenges in realizing data sharing, provides an analysis of the core reasons leading to these challenges, and proposes recommendations to overcome the challenges. Amongst the main challenges are differences in data policy to gain access to satellite data, diverse data formats, and delivery mechanisms. The major challenge for the decision makers is to define a more open policy and for the scientist the challenge is to implement these polices for the benefit of all. This paper proposes that governments should adopt policies encouraging more open distribution and access to their data, in order to generate an improved digital earth with increased benefits to human society.  相似文献   

Snow effects on alpine vegetation in the Qinghai-Tibetan Plateau   总被引：1，自引：0，他引：1  

《International Journal of Digital Earth》2013,6(1):58-75

Understanding the relationships between snow and vegetation is important for interpretation of the responses of alpine ecosystems to climate changes. The Qinghai-Tibetan Plateau is regarded as an ideal area due to its undisturbed features with low population and relatively high snow cover. We used 500 m Moderate Resolution Imaging Spectroradiometer (MODIS) datasets during 2001–2010 to examine the snow–vegetation relationships, specifically, (1) the influence of snow melting date on vegetation green-up date and (2) the effects of snow cover duration on vegetation greenness. The results showed that the alpine vegetation responded strongly to snow phenology (i.e., snow melting date and snow cover duration) over large areas of the Qinghai-Tibetan Plateau. Snow melting date and vegetation green-up date were significantly correlated (p < 0.1) in 39.9% of meadow areas (accounting for 26.2% of vegetated areas) and 36.7% of steppe areas (28.1% of vegetated areas). Vegetation growth was influenced by different seasonal snow cover durations (SCDs) in different regions. Generally, the December–February and March–May SCDs played a significantly role in vegetation growth, both positively and negatively, depending on different water source regions. Snow's positive impact on vegetation was larger than the negative impact.  相似文献   

Sub-seasonal Prediction of the South China Sea Summer Monsoon Onset in the NCEP Climate Forecast System Version 2     

Weiwei WANG  Song YANG  Tuantuan ZHANG  Qingquan LI  Wei WEI 《大气科学进展》2022,39(11):1969-1981

This study depicts the sub-seasonal prediction of the South China Sea summer monsoon onset (SCSSMO) and investigates the associated oceanic and atmospheric processes, utilizing the hindcasts of the National Centers for Environmental Prediction (NCEP) Climate Forecast System version 2 (CFSv2). Typically, the SCSSMO is accompanied by an eastward retreat of the western North Pacific subtropical high (WNPSH), development of the cross-equatorial flow, and an increase in the east-west sea surface temperature (SST) gradient. These features are favorable for the onset of westerlies and strengthening of convection and precipitation over the South China Sea (SCS). A more vigorous SCSSMO process shows a higher predictability, and vice versa. The NCEP CFSv2 can successfully predict the onset date and evolution of the monsoon about 4 pentads (20 days) in advance (within 1–2 pentads) for more forceful (less vigorous) SCSSMO processes. On the other hand, the climatological SCSSMO that occurs around the 27th pentad can be accurately predicted in one pentad, and the predicted SCSSMO occurs 1–2 pentads earlier than the observed with a weaker intensity at longer leadtimes. Warm SST biases appear over the western equatorial Pacific preceding the SCSSMO. These biases induce a weaker-than-observed WNPSH as a Gill-type response, leading to weakened low-level easterlies over the SCS and hence an earlier and less vigorous SCSSMO. In addition, after the SCSSMO, remarkable warm biases over the eastern Indian Ocean and the SCS and cold biases over the WNP induce weaker-than-observed westerlies over the SCS, thus also contributing to the less vigorous SCSSMO.  相似文献   

Determination of onset date of the South China Sea summer monsoon in 2006 using large-scale circulations   总被引：1，自引：1，他引：0  

郑彬  林爱兰  谷德军  李春晖 《热带气象学报(英文版)》2011,17(3):202-208

Since the South China Sea (SCS) summer monsoon (SCSSM) is pronouncedly featured by abruptly intensified southwesterly and obviously increased precipitation over the SCS,the lower-tropospheric winds and/or convection intensities are widely used to determine the SCSSM onset.The methods can be used successfully in most of the years but not in 2006.Due to the intrusion of Typhoon Chanchu(0601)that year,the usual method of determining SCSSM onset date by utilizing the SCS regional indices is less capable of pinpointing the real onset date.In order to solve the problem,larger-scale situations have to be taken into account.Zonal and meridional circulations would be better to determine the break-out date of SCSSM in 2006.The result indicates that its onset date is May 16.Moreover,similar onset dates for other years can be obtained using various methods,implying that large-scale zonal and meridional circulations can be used as an alternative method for determining the SCSSM onset date.  相似文献