基于采自冲绳海槽中部的CS2站柱状沉积物黏土矿物和AMS14C年代分析,探讨了末次冰消期以来冲绳海槽中部黏土矿物的物质来源及其环境指示意义。结果显示,CS2站黏土矿物以伊利石为主,其次为绿泥石,高岭石和蒙脱石含量较少。根据黏土矿物分布趋势变化,CS2站柱状沉积物可划分为3个阶段:阶段(I 19~12 ka BP)和阶段Ⅱ (12~8 ka BP)期间沉积物主要来源于长江,台湾和黄河物质也有一定影响,其物质来源主要受海平面升降的控制;阶段Ⅲ(8~0 ka BP)主要来源于长江和台湾,黄河贡献有限,主要受黑潮演化的影响。CS2站(蒙脱石+高岭石) (/伊利石+绿泥石)比值可以作为东亚季风演化的矿物学指标,指标变化显示出东亚冬季风强度相对夏季风的强度在16.4~14.8 ka BP和12.8~11.6 ka BP期间有两次显著的加强,指示当时气候相对寒冷干燥,结果可以与格陵兰冰心δ18O和三宝洞δ18O记录等很好对比。 相似文献
The early history of life harbours many unresolved evolutionary questions, none more important than the genomic origin and cellular evolution of eukaryotes. An issue central to eukaryote origin concerns the position of eukaryotes in the tree of life and the relationship of the host lineage that acquired the mitochondrion some two billion years ago to lineages of modern-day archaea. Recent analyses indicate that the host lineage branches within the Archaea, prompting the search for novel archaeal lineages that can improve our understanding of the cellular evolution of eukaryotes. Here we give a brief review of the studies on Archaea, the tree of life and the cellular evolution of eukaryotes, which is followed by an overview of recent progress fueled by new genomic technologies and recent status of archaeal research in China. Future directions for the study of early evolution are considered. 相似文献
The long-lived debate on the principle of effective stress is rooted in the obscure physical significance of stresses. For the sakes of clarifying stress concepts and establishing a reasonable principle of effective stress, unsaturated soil is divided into six phases and the bearing structure of it, named generalized soil structure, is defined based on considering soil as a special structure. Then the essence of effective stress equation, named stress relation equation, is derived according to analysis of interphase interactions and independent-phase equilibrium. The stress relation equation indicates the corresponding relation between two series of stress variables used in mixed and multiphase continuum models, respectively. Furthermore, a reasonable concept of suction stress is redefined to describe interparticle connection properties. Then, a generalized stress framework is constructed by associating stress relation equation with suction stress. After demonstrating the concept of neutral stress, a generalized principle of effective stress is established and the total soil skeleton stress is searched out, which is the predominant stress controlling the strength and deformation of soil. Finally, the collapse phenomenon is analyzed and the time- and spatial-dependent stress frameworks are developed.