初夏西北太平洋副高东西变动对中国南部降水东西差异的影响

西北太平洋副热带高压（以下简称副高）是影响中国气候的大尺度环流系统,为了进一步了解副高对中国气候的影响,本文利用站点观测资料和大气环流再分析资料,通过资料诊断分析和数值模拟方法,探讨了6月副高东西变动对中国南部降水的影响,以及影响副高东西变动的前期海洋因子.结果表明副高东西变动对中国西南和华南地区降水的影响明显不同：副高偏东有利于降水西南偏多而华南偏少,偏西则降水变化刚好相反.其原因与副高东西变化引起的环流差异有关,华南降水与副高东（西）变动时西太平洋地区副高西北侧的东北（西南）风异常以及东亚中低纬度地区异常经向波列的变化直接有关,而西南降水异常不仅与副高东西变动在东南亚地区引起的纬向风异常有关,与青藏高原大地形动力作用对副高北侧异常纬向风的变化也有十分密切的联系.此外,副高东西变动时影响西南和华南地区的水汽来源不同,影响西南的水汽主要来源于赤道印度洋80°E附近越赤道气流,而影响华南的水汽主要来源于副高南侧偏东气流从西北太平洋地区输送的水汽.进一步分析发现前期冬春季热带西北太平洋和赤道西太平洋海温变化的偶极差异与后期初夏副高东西变动有密切联系,冬春季西北太平洋暖海温和赤道西太平洋冷海温变化有利于后期初夏副高偏西,相反则有利于副高偏东,数值模拟结果在一定程度证实了资料诊断分析结果.

     

Stability of waterfront retaining wall subjected to pseudo-static earthquake forces

Waterfront retaining walls supporting dry backfill are subjected to hydrostatic pressure on upstream face and earth pressure on the downstream face. Under seismic conditions, if such a wall retains a submerged backfill, additional hydrodynamic pressures are generated. This paper pertains to a study in which the effect of earthquakes along with the hydrodynamic pressure including inertial forces on such a retaining wall is observed. The hydrodynamic pressure is calculated using Westergaard's approach, while the earth pressure is calculated using Mononobe-Okabe's pseudo-static analysis. It is observed that when the horizontal seismic acceleration coefficient is increased from 0 to 0.2, there is a 57% decrease in the factor of safety of the retaining wall in sliding mode. For investigating the effect of different parameters, a parametric study is also done. It is observed that if φ is increased from 30° to 35°, there is an increase in the factor of safety in the sliding mode by 20.4%. Similar observations were made for other parameters as well. Comparison of results obtained from the present approach with [Ebeling, R.M., Morrison Jr, E.E., 1992. The seismic design of waterfront retaining structures. US Army Technical Report ITL-92-11. Washington DC] reveal that the factor of safety for static condition (k_h=0), calculated by both the approaches, is 1.60 while for an earthquake with k_h=0.2, they differ by 22.5% due to the consideration of wall inertia in the present study.     

城市群生态空间结构优化组合模式及对策——以中原城市群为例

城市群生态空间结构优化将会促进城市群经济社会环境可持续发展。在深入分析城市群生态空间结构与城市群经济社会发展之间的空间相互作用、互利共生和协同进化等优化依据基础上,构建了城市群生态空间结构优化组合模式。作者阐述并分析了中原城市群建设过程中生态空间结构紊乱原因、空间结构演变趋势和生态空间结构优化模式。最后提出中原城市群生态空间结构优化对策建议：因地制宜,构建完善高效的“斑块—廊道—基质”城市群生态网络系统;促进城市群区域各城市合理分工,不断形成产业簇群;构建城市群发展引导机制,使城市群区域的城乡建设转向更加适宜人们居住的生态环境友好型地区。     

Spatial-temporal patterns of China’s interprovincial migration, 1985-2010

Migration plays an increasing role in China's economy since mobility rose and economic restructuring has proceeded during the last three decades. Given the background of most studies focusing on migration in a particular period, there is a critical need to analyze the spatial-temporal patterns of migration. Using bicomponent trend mapping technique and interprovincial migration data during the periods 1985-1990, 1990-1995, 1995-2000, 2000-2005, and 2005-2010 we analyze net-, in-, out-migration intensity, and their changes over time in this study. Strong spatial variations in migration intensity were found in China's interprovincial migration, and substantial increase in migration intensity was also detected in eastern China during 1985-2010. Eight key destinations are mostly located within the three rapidly growing economic zones of eastern China (Pearl River Delta, Yangtze River Delta and Beijing-Tianjin-Hebei Metropolitan Region), and they are classified into three types: mature, emerging, and fluctuant origins, while most key origins are relatively undeveloped central and western provinces, which are exactly in accordance with China's economic development patterns. The results of bicomponent trend mapping indicate that, in a sense, the migration in the south was more active than the north over the last three decades. The result shows the new changing features of spatial-temporal patterns of China's interprovincial migration that Fan and Chen did not find out in their research. A series of social-economic changes including rural transformation, balanced regional development, and labor market changes should be paid more attention to explore China's future interprovincial migration.     

扬子陆块西缘中元古代晚期元谋花岗岩的时代、成因及构造意义

扬子陆块西缘晚中元古代地质演化史一直存在较大争议,本文选择以扬子西缘元谋杂岩中一套二长花岗岩为研究对象,开展岩相学、锆石U-Pb年代学、全岩地球化学等综合研究,为认识和理解扬子西缘晚中元古代地质演化提供支撑。两件元谋二长花岗岩样品的LA-ICP-MS锆石U-Pb年龄分别为1086±10 Ma（MSWD=1.4,n=50）和1099±10 Ma（MSWD=1.8,n=58）。所有样品具有高硅（SiO₂为69.44%~73.98%）、富碱（Na₂O+K₂O为6.11%~7.72%）、贫钙（CaO为0.39%~1.46%）、贫镁（MgO为0.52%~0.76%）、低钛（TiO₂为0.30%~0.59%）的特点,同时表现出强过铝质（A/CNK=1.19~1.35）及中钾钙碱性–钾玄岩系列特征。它们具有高的稀土元素总量（∑REE=211.60×10⁻⁶~349.01×10⁻⁶）,呈现轻稀土元素富集和重稀土元素亏损（（La/Yb）_N=4.32~7.36）;富集Rb、U、Th等大离子亲石元素和Zr、Th、Hf等,亏损Nb、Ta、Ba等元素,并具有明显的负Eu异常（δEu=0.46~0.59）,锆石饱和温度介于827~912℃之间,展示了A型花岗岩的属性。这些二长花岗岩可能是通过中上地壳的中酸性火成岩的部分熔融形成,结合前人的研究成果,它们最可能形成于弧后的伸展环境,综合扬子陆块周缘晚中元古代的岩浆记录,元谋杂岩中1.09 Ga二长花岗岩的形成应与扬子陆块开始参与Rodinia超大陆聚合有关。

     

南海热带气旋的气候变化及强度预测方法研究

建立南海海域1949～2007年6～10月份热带气旋（以下简称TC）年、月频数和TC中心强度的历史资料统计文件,分析TC的年月变化。结果表明：近50年,TC具有10a左右的周期变化,1964～1974年和1985～1995年为南海两个强台风以上级别频发期,1997～2006年为TC频数少且强度弱的时期。同时TC强度的空间分布分析结果表明,中沙北部海域和东沙西部海域为强台风多发生区,各月TC强度分布特征明显不同,且其加强通道具有南-北-南阶段性变化。另外,通过分别对1949～2007年北半球500hPa高度场及海温场的格点资料和TC强度历史资料的相关计算,选取高相关格点,根据相关权重组成组合因子,构建二次型预测方程,做年月TC强度预测。预测检验结果显示,冬季的高度场和海温场对次年的TC强度预测效果良好。     

利用磷灰石裂变径迹资料反演合肥盆地古地温和估计沉降率与剥蚀率

利用合肥盆地内６个磷灰石裂变径迹样品资料,反演模拟了该盆地自侏罗纪晚期以来各时代地层古地温变化,估算了沉降率与剥蚀率．模拟结果与其他地质资料推论一致,它揭示出该盆地南北两地存在不同的构造变化和受热史,反映了大别山构造发展对盆地南北两地区影响的差异．盆地南部靠近大别山地区的晚侏罗世地层在白垩纪早期埋藏温度曾大于１２０℃;早白垩世后期的构造抬升（剥蚀率约１３０ｍ／Ｍａ）使温度降至３０—４０℃;自白垩纪后期始,该地区一直处于动荡的但总体为持续抬升的构造环境中．盆地北部地区晚侏罗世与早白垩世早期地层在白垩纪期间埋藏温度曾达到和超过１００℃,但随后的大幅度构造抬升（剥蚀率约１９０ｍ／Ｍａ）使其温度降至３０—６０℃;第三纪早期,局部区域的裂陷（沉降率约６０ｍ／Ｍａ）使温度又升至８０℃左右．指出合肥盆地构造演化大体可分形成、隆升、局部裂陷和再隆升４个阶段．     

山东阳谷茌平煤田阿城井田山西组煤岩层对比研究

通过对山西组沉积特征及聚煤变化规律的研究,采用煤岩层组合特征、标志层、层间距、测井曲线形态和地震物性特征等方法,对井田内山西组的煤、岩层进行综合对比。确定了山西组主采煤层的赋存层位、形态及区内的构造方案,对周边地区找煤工作具有指导作用。     

川西前陆盆地蓬莱镇组层序、岩相古地理特征及演化

在川西前陆盆地蓬莱镇组层序特征研究基础上,将川西前陆盆地蓬莱镇组划分为5个沉积层序,每个沉积层序都由进积和退积体系域组成。以体系域为编图单元,采用体系域压缩法,编制了川西前陆盆地上侏罗统蓬莱镇组9张层序岩相古地理图。编图表明,川西前陆盆地蓬莱镇期古地理演化总体上显示盆扩/盆缩的特点,并具有明显的继承性、不均一性、阶段性和同步性。与传统的岩相古地理图相比,层序岩相古地理图具有动态、精确、等时、成因连续和勘探实用等优点。     

Formation of arcs and backarc basins inferred from the tectonic evolution of Southeast Asia since the Late Cretaceous

Results of the geological and geophysical surveys in the Daito ridges and basin in the northern West Philippine Basin suggest that the Daito Ridge was an arc facing toward the south from the Late Cretaceous to the Early Tertiary. The Late Cretaceous and Tertiary history of Southeast Asia is evaluated based on these data in the Daito ridges and basins and reconstructed based on overall plate kinematics that have operated in this area. During the Late Cretaceous, the Daito Ridge and the East Philippine Islands were positioned along the boundary between the Indian and Pacific Plates. The western half of the Philippines setting on the Indian Plate approached from the south and collided with the East Philippine–Daito Arc either during the latest Paleocene or the earliest Eocene. It is inferred that the bulk of the Philippine archipelago rotated clockwise and Borneo spun counterclockwise during the Tertiary.From the reconstruction, the formation of backarc basins and their spreading direction are assessed. As a result, some primary causes and significant characteristics are suggested for the opening of backarc basins in Southeast Asia. First, opening of some backarc basins commenced with or was triggered by collisions. Second, backarc basins opened approximately parallel to oceanic plate motion. Third, the formation of some backarc basins was triggered by the approach of a hot spreading center. Fourth, the spreading mode or direction of backarc basins was greatly affected by the configuration of the surrounding continent and was also rearranged to spread approximately parallel to oceanic plate motion.The formation of backarc basins and their spreading direction can be reasonably explained by plate kinematics. However, the generative force responsible for their formation is possibly within the subduction system, particularly to form horizontal tensional force in backarc side.