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41.
中国区域地壳稳定性定量化评价与分区 总被引:14,自引:1,他引:14
中国地处环太平洋构造带与地中海构造带交接部位,地质构造复杂,活动性较为强烈,各种内动力地质灾害比较严重,总体看来中国区域地壳稳定性相对较差。为了使区域地壳稳定性评价与分区获得定量化认识,更好地服务于经济建设和减灾防灾,本文在分析中国现今活动的主要构造体系与内动力地质灾害的分布规律的基础上,首先进行区域地壳稳定性定量化评价待评区的划分;其次进行定量化评价指标的选定、取值、权重分配及评价标准的确定;最后运用模糊数学进行中国区域地壳稳定性定量化评价与分区。 相似文献
42.
Longitudinal Displacement of the Subtropical High in the Western Pacific in Summer and its Influence 总被引:17,自引:0,他引:17
Using the relative vorticity averaged over a certain area, a new index for measuring the longitudinal position of the subtropical high (SH) in the western Pacific is proposed to avoid the increasing trend of heights in the previous indices based on geopotential height. The years of extreme westward and eastward extension of SH using the new index are in good agreement with those defined by height index. There exists a distinct difference in large-scale circulation between the eastward and westward extension of SH under the new definition, which includes not only the circulation in the middle latitudes but also the flow in the lower latitudes. It seems that when the SH extends far to the east (west), the summer monsoon in the South China Sea is stronger (weaker) and established earlier (later). In addition, there exists a good relationship between the longitudinal position of SH and the summer rainfall in China. A remarkable negative correlation area appears in the Changjiang River valley, indicating that when the SH extends westward (eastward), the precipitation in that region increases (decreases). A positive correlation region is found in South China, showing the decrease of rainfall when the SH extends westward. On the other hand, the rainfall is heavier when the SH retreats eastward. However, the anomalous longitudinal position of SH is not significantly related to the precipitation in North China. The calculation of correlation coefficients between the index of longitudinal position of SH and surface temperature in China shows that a large area of positive values, higher than 0.6 in the center, covers the whole of North China, even extending eastward to the Korean Peninsula and Japan Islands when using NCEP/NCAR reanalysis data to do the correlation calculation. This means that when the longitudinal position of the SH withdraws eastward in summer, the temperature over North China is higher. On the other hand, when it moves westward, the temperature there is lower. This could explain the phenomenon of the seriously high temperatures over North China during recent summers, because the longitudinal position of SH in recent summers was located far away from the Asian continent. Another region with large negative correlation coefficients is found in South China. 相似文献
43.
Zhang Xiaoxuan Hu Yonghong Jia Gensuo Hou Meiting Fan Yanguo Sun Zhongchang Zhu Yuxiang 《Theoretical and Applied Climatology》2017,129(3-4):965-976
The influence of spatial scales on surface fluxes is an interesting but not fully investigated question. This paper presents an analysis on the influence of spatial scales on surface fluxes in the north Tibetan Plateau based on eddy covariance (EC) and large aperture scintillometer (LAS) data at site Nagqu/BJ, combined with the land surface temperature (LST) and normalized difference vegetation index (NDVI) of moderate-resolution imaging spectroradiometer (MODIS). The analysis shows that sensible heat fluxes calculated with LAS data (H_LAS) agree reasonably well with sensible heat fluxes calculated with EC data (H_EC) in the rain and dry seasons. The difference in their footprints due to the wind direction is an important reason for the differences in H_EC and H_LAS. The H_LAS are statistically more consistent with H_EC when their footprints overlap than when their footprints do not. A detailed analysis on H_EC and H_LAS changes with net radiation and wind direction in rain and dry season indicates that the spatial heterogeneity in net radiation created by clouds contributes greatly to the differences in H_EC and H_LAS in short-term variations. A significant relationship between the difference in footprint-weighted averages of LST and difference in H_EC and H_LAS suggests that the spatial heterogeneity in LST at two spatial scales is a reason for the differences in H_EC and H_LAS and that LST has a positive correlation with the differences in H_EC and H_LAS. A significant relationship between the footprint-weighted averages of NDVI and the ratio of sensible heat fluxes at two spatial scales to net radiation (H/Rn) in the rain season supports the analysis that the spatial heterogeneity in canopy at two spatial scales is another reason for differences in H_EC and H_LAS and that canopy has a negative correlation with (H/Rn). An analysis on the influence of the difference in aerodynamic roughness lengths at two spatial scales on sensible heat fluxes shows that the influence is greater in the dry season and smaller in the rain season because the ratio of z0m_LAS to z0m_EC is big in the dry season and is close to 1.0 in the rain season. This study on spatial scales on surface fluxes in the Tibetan Plateau will be helpful in analyzing and understanding its influence on climate. 相似文献
44.
利用区域气候模式RegCM3及NCEP/DOE再分析资料,对山东地区1985-2000年夏季区域气候变化进行了高分辨率(20 km)的数值模拟试验.通过对模拟结果和山东地区较密集的观测资料的比较分析,检验了模式在该地区的模拟能力.结果表明:(1)区域气候模式RegCM3能够合理地模拟出山东区域中高层的主要环流特征;(2)数值模拟能够合理再现山东地区16 a夏季平均降水南高北低和地面气温西高东低的主要分布特征.同时也能够合理地模拟出1990和1998年山东地区夏季强降水的主要特征,以及1992和1999年的干旱;(3) 模式结果较好地反映了1985-2000年16 a夏季山东地区降水和地面气温变率的主要特征. 相似文献
45.
江苏夏季气温异常的时空变化特征 总被引:3,自引:4,他引:3
利用中国160气象观测站1951-2005 年和江苏省59气象观测站1961-2004年的月平均气温资料, 在分析江苏气温变化的季节-年际变化特征的基础上, 重点分析了江苏夏季气温的年际、年代际变化的时间和空间特征.发现:江苏夏季气温1970s到1990s前期基本上处在一个偏凉期,1960s及1990s中后期以后基本上处在一个偏热期;江苏夏季气温异常存在显著的准6 a、准9 a的年际周期和以16 a为中心的年代际周期;江苏夏季气温趋势自西北向东南呈现正负正的位相分布特点,即江苏西北部和东南部地区夏季气温呈现升高的趋势,其它地区呈现降低的趋势. 相似文献
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下扬子地区若干上地幔橄榄岩的显微构造研究 总被引:3,自引:1,他引:3
本文对下扬子区内2个玄武岩产地(江苏六合瓜埠山、安徽当涂釜山)的幔源包体进行研究,结果表明本区上地幔尖晶石二辉橄榄岩具原生粒状结构、碎斑结构、板状镶嵌等粒结构及部分熔融结构四种类型。在光学岩组图上显示出从原生粒状结构→碎斑结构→板状镶嵌等粒结构,其橄榄石光性方位优选性逐渐增强。变形橄榄石滑移轴为[100],滑移面以{0k1}为主,(010)次之。高温高压人工变形实验证实,这种滑移系形成于高温低应变速率条件下。橄榄石位错类型多样,(100)、(001)位错壁分布广泛,位错壁间距显示对数正态分布特征.估算的本区上地幔高温蠕交流动差异应力为(10.9~11.5MPa)。上地幔流变速率、流动应力、等效粘滞度与深度关系指示本区新生代大地构造性质为大陆拉张带或大陆裂谷带。 相似文献