大鹏湾赤潮多发区的叶绿素a分布与环境关系初探

根据１９９０－１９９１年大鹏湾盐海田域４个测站的观测资料分析结果表明，大鹏湾赤潮我发区海水中叶绿素α含量的测值范围为０．０６－８．２８ｍｇ／ｍ＾３，平均为１．３３ｍｇ／ｍ＾３。季切平均值以春，秋季较高，夏，冬季较低；表层的叶绿素α含量稍高于底层。采用多元逐步回归分析得知，影响叶绿素α含量变化的主要因子是Ｆｅ，ＣＯＤ，ｓ，其次是ＤＯ，ｔ，Ｔｂ；此，Ｍｎ，Ｓｉ（ＯＨ）４，ＰＯ４，ＮＯ２与叶绿素α的分布     

自20世纪90年代中后期夏季巴伦支海海冰与秋季中国西南地区干旱的联系加强

研究夏季7—8月巴伦支海海冰和秋季9—11月中国西南地区干旱的年际变化的联系,并探讨了其可能机制。结果表明：1979—1997年夏季巴伦支海海冰和秋季中国西南地区干旱在年际尺度上相关不显著,但到1998—2019年,海冰和干旱指数的相关系数增长至-0.69,置信水平达到99%。当夏季7—8月巴伦支海海冰增多时,有利于秋季9—11月中国西南地区发生干旱;当夏季7—8月巴伦支海海冰减少时,则反之。进一步分析其原因可知：1998—2019年,当夏季巴伦支海海冰异常偏多时,海冰异常可以持续到秋季,导致巴伦支海表面湍流热通量负异常,新地岛以西地区的大气变得更加稳定,激发了异常下沉运动。通过异常经向环流作用,进一步促进地中海附近出现上升运动。由此产生的地中海北部对流层高层300 hPa异常辐散风激发了罗斯贝波,波列沿着55°N向东传播,在贝加尔湖地区向南传播至中国北部和西南地区,导致中国西南和华东地区上空出现异常高压,这有利于中国西南地区降水减少、温度升高,进而导致干旱发生。此外,相比于1979—1997年,1998—2019年夏季巴伦支海海冰更大的年际变率可能是导致二者联系加强的一个重要原因。     

Reappraisal of Asian Summer Monsoon Indices and the Long-Term Variation of Monsoon

The Webster and Yang monsoon index (WYI)-the zonal wind shear between 850 and 200 hPa was calculated and modified on the basis of NCEP/NCAR reanalysis data. After analyzing the circulation and divergence fields of 150-100 and 200 hPa, however, we found that the 200-hPa level could not reflect the real change of the upper-tropospheric circulation of Asian summer monsoon, especially the characteristics and variation of the tropical easterly jet which is the most important feature of the upper-tropospheric circulation. The zonal wind shear U850-U(150 100) is much larger than U850-U200, and thus it can reflect the strength of monsoon more appropriately. In addition, divergence is the largest at 150 hPa rather than 200 hPa, so 150 hPa in the upper-troposphere can reflect the coupling of the monsoon system. Therefore, WYI is redefined as DHI, i.e., IDH=U850* - U(150 100)*, which is able to characterize the variability of not only the intensity of the center of zonal wind shear in Asia, but also the monsoon system in the upper and lower troposphere. DHI is superior to WYI in featuring the long-term variation of Asian summer monsoon as it indicates there is obvious interdecadal variation in the Asian summer monsoon and the climate abrupt change occurred in 1980. The Asian summer monsoon was stronger before 1980 and it weakened after then due to the weakening of the easterly in the layer of 150-100 hPa, while easterly at 200 hPa did not weaken significantly. After the climate jump year in general, easterly in the upper troposphere weakened in Asia, indicating the weakening of summer monsoon; the land-sea pressure difference and thermal difference reduced, resulting in the weakening of monsoon; the corresponding upper divergence as well as the water vapor transport decreased in Indian Peninsula, central Indo-China Peninsula, North China, and Northeast China, indicating the weakening of summer monsoon as well. The difference between NCEP/NCAR and ERA-40 reanalysis data in studying the intensity and long-term variation of Asian summer monsoon is also compared in the end for reference.     

Deep seismic refraction experiment in northeast Brazil: New constraints for Borborema province evolution

The Borborema Province of northeastern Brazil is a major Proterozoic crustal province that, until now, has never been explored using deep crustal seismic methods. Here are reported the first results obtained from a high-quality seismic refraction/wide-angle reflection profile that has defined the internal seismic velocity structure and thickness of the crust in this region. Almost 400 recording stations were deployed in the Deep Seismic Refraction (DSR) experiment through an NW–SE ca. 900 km linear array and 19 shots were exploded at every 50 km along the line. Data from the 10 southeastern most shots of the seismic profile were processed in this work. The main features and geological structures crossed by the studied portion of the profile belong to the so-called Central Sub-province of the Borborema tectonic province. The crustal model obtained is compatible with a typical structure of extended crust. The model was essentially divided into three layers: upper crust, lower crust, and a half-space represented by the shallower portion of the mantle. The Moho is an irregular interface with depth ranging between 31.7 and 34.5 km, and beneath the Central Sub-province it varies from 31.5 to 33 km depth, where its limits are related to major crustal discontinuities. The distribution of velocities within the crust is heterogeneous, varying vertically from 5.7 to 6.3 km/s in the upper crust and from 6.45 to 6.9 km/s in the lower crust. From the average crustal velocity distribution it is evident that the Central Sub-province has seismic characteristics different from neighboring domains. The crust is relatively thin and crustal thickness variations in the profile are subtle due to stretching that occurred in the Cretaceous, during the fragmentation of Pangaea, opening of the South Atlantic Ocean and separation of South America from Africa.     

1960—2009年中国年降水量的年际及年代际变化特征

利用1960-2009年中国台站降水量资料,揭示了全国、区域年降水量变化的多时间尺度的复杂结构和地区性差异,并根据年代际周期对未来降水量变化的贡献进行了预估。我国北方年降水量年际变化较强,年际变化对年降水量的贡献较大;南方年降水量年际变化相对较弱,年际变化对降水量的贡献较小,东北和西北地区年降水量的年代际变化较强,年代际变化明显,且同位相;其他地区年降水量年代际变化相对较弱。我国东北、西北、华南、青藏高原、西南地区年降水量的年代际变率对年降水量的贡献目前处于下降阶段,未来5-10年年代际变化的贡献可能继续呈下降趋势;长江中下游地区年降水量的年代际变率对年降水量的贡献目前处于上升阶段,未来5-10年年代际变化的贡献可能继续呈上升趋势。     

雅鲁藏布江流域降水中氧稳定同位素的时空变化

This paper reveals the temporal and spatial variations of stable isotope in precipita-tion of the Yarlung Zangbo River Basin based on the variations of δ18O in precipitation at four stations (Lhaze,Nugesha,Yangcun and Nuxia) in 2005. The results show that δ18O of pre-cipitation has distinct seasonal changes in the Yarlung Zangbo River Basin. The higher value of δ18O occurs in spring prior to monsoon precipitation,and the lower value occurs during monsoon precipitation. From the spatial variations,with the altitude-effect and rainout process during moisture transport along the Yarlung Zangbo River Valley,18O of precipitation is gradually depleted. Thus,δ18O of precipitation decreases gradually from the downstream to the upstream,and the lapse rate of δ18O in precipitation is approximately 0.34‰/100m and 0.7‰/100km for the two reasons. During monsoon precipitation,spatial variation of δ18O in precipitation is dominated by the amount effect in the large scale synoptic condition.     

基于人工电离层扰动对地-电离层波导传播的VLF波的影响

基于低电离层加热理论和甚低频电波在地-电离层波导中传播理论,建立低电离层扰动对甚低频电波传播影响的分析模型,并利用实验数据验证了该模型的正确性.据此模型,研究了加热功率、加热波极化以及背景参数所导致的低电离层扰动对不同频率甚低频电波传播的影响.结果表明,低电离层扰动越强,则通过该区域内甚低频波幅度和相位的相对变化越强,通过研究地-电离层波导甚低频信号通过人工扰动区域后幅度和相位的变化,可望用于诊断人工电离层扰动强度.     

基于分形维数的环渤海地区海岸线变迁及成因分析

利用遥感和GIS技术提取了环渤海地区1980年、1990年、2000年和2010年4期海岸线信息,采用网格法计算每期海岸线的分形维数;分析了海岸线及其分形维数的时空变化特征、并探讨了其与海岸开发活动之间的关系。研究表明:在1980—2010年间,研究区海岸线长度持续增加,变化强度逐渐增大,海岸线共增加了1 074.35 km;从时间过程看,2000年以后海岸线长度进入快速增长时期;从区域范围看,以天津市和河北省所在的渤海湾地区海岸线的变迁最显著。研究期间,环渤海地区海岸线整体向海推进,海岸线分形维数逐渐增大,岸线形状趋于复杂。人为的海岸开发活动是海岸线变迁的主导因素,2000年之前海岸开发以围垦养殖、盐田为主;之后,港口码头建设和城镇建设型的海岸工程逐渐增多。海岸线的分形维数与海岸带的物质组成与演变过程有直接关系,大量规模不等的海岸工程的建设是海岸线分形维数变化的主导因素。     

安徽省植被和地表温度季节变化及空间分布特征

卫星遥感广泛应用于宏观、大范围、动态连续的植被和地表温度监测研究。利用2001—2008年MODIS卫星遥感资料, 分析了安徽省归一化植被指数 (NDVI) 和地表温度 (LST) 的季节、月变化和空间分布特征,探讨了代表城市区域的NDVI和LST时空分布及其相关性。结果表明:安徽省NDVI和LST季节变化显著,具有典型地域特征;受当地气候影响,植被、农作物类型地域差异较大,导致LST季节变化以及空间分布不同;城市中心向郊区过渡时,植被覆盖度在不断增加,伴随着NDVI的增加,LST下降;城市LST明显高于郊区值,呈现热岛效应。研究表明,当地气候和植被分布共同决定了LST的分布状况,这将为安徽省合理进行农业区划、科学监测生态环境以及有效评估土地利用与热岛效应提供重要参考依据。     

地磁场Sq的经度效应和UT变化

使用国际地球物理年（ＩＧＹ）和国际地球物理合作年（ＩＧＣ）期间全球地磁台网的资料和中国台站的同期地磁记录，对地磁场太阳日变化Ｓ_ｑ的经度效应和ＵＴ变化进行了分析研究．将适用于瞬时全球磁场的球谐分析法与适用于平均场的双调和分析法相结合，提出了一种分析Ｓ_ｑ磁场的新方案，得到了（θ，Ｔ，ｔ）坐标系中组成Ｓ_ｑ场的三个部分，即仅随地方时ＬＴ变化的部分Ｓ_ＬＴ，仅随世界时ＵＴ变化的部分Ｓ_ＵＴ以及既随ＬＴ变化又随ＵＴ变化的部分Ｓ_ＬＵＴ．从全球来看，在ＩＧＹ／ＩＧＣ期间，这三部分的强度之比分别为：Ｘ分量１．０：０．２：０．３，ｙ分量１．０：０．１：０．６，Ｚ分量１．０：０．４：１．０．Ｓ_ｑ的经度效应和ＵＴ变化虽然表现了同一物理过程，但它们有不同的表达形式，其决定因素是地磁轴对地理轴的倾斜，地磁场的非偶极子成分（即区域性异常）和地球内部电性的横向不均匀性（包括海陆分布、地壳上地幔电导率的区域差异）