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地球内部物理和演化的几个核心论题:Ⅱ地球动力体系

陈胜早   

  1. Ottawa-Carleton Geoseienee Center and Dept.of Earth Sciences Carleton University,Ottawa,ONKIS 5116,CANADA
  • 收稿日期:1997-12-20 修回日期:1997-12-20 出版日期:1997-12-20 发布日期:1997-12-20

KEY TOPICS ON PHYSICS AND EVOLUTION OF THE EARTH’S INTERIOR: Ⅱ. GEODYNAMIC SYSTEMS

Chen Sheng-zao   

  1. Ottawa-Carleton Geoscience Center and Department of Earth Sciences, Carleton University, Ottawa, ONK1S 5B6, CANADA
  • Received:1997-12-20 Revised:1997-12-20 Online:1997-12-20 Published:1997-12-20

摘要: 生成于岩石圈底部的“大陆根”与地幔羽的形成过程有关,其主要证据来自3-D地震成象和实验、数值模拟结果。地幔上涌和地幔下涌分别代表高温、低速带和低温、高速带。长波长的地幔构造与表层构造特征相关,地球内部边界层-热边界层或化学边界层将对全球动力体系产生直接或间接的效应。因此,深入研究这些边界层的结构、形态、热力学和物理化学特性,对解决地幔整体对流与成层对流体系中某些相冲突的问题具有关键意义。全球地震成象和深源地震资料表明,某些破碎的早期俯冲板片可能连续或间断性地下沉到核-幔边界处,并返回到起源于该边界层的地幔羽中。今后的任务不是重提地幔整体对流或是成层对流的问题.而是如何建立两者的统一模式。整体地幔对流体系在时间和空间演化过程中与成层对流、局部小规模对流或次生对流相伴生的理论、实验和数值模拟将是地球动力学研究的主要趋势。

Abstract: The continental/lithospheric root formed at the bottom of the lithosphere is associated with depletion of the mantle plumes generated in the core-mantle boundary layer (CMB). It is mainly evidenced from three-dimensional seismic tomography and experimental and numerical simulations. The upwellings and downwellings represent, respectively, the high and numerical simulations. The upwellings and downwellings respectively, the high temperature/low velocity and the low temperature/high velocity zones. The long-wavelength mantle structure bears relations to tectonic features of the Earth’s surface. The boundary layers, either thermal (TBL) or chemical ones (CBL), will bring about direct of indirect effects on the global dynamic systems, and therefore, further study of the boundary layers on its structure, topography, thermodynamics, and physicochemical properties will be of crucial significance in solving those conflicting problems between the whole-mantle convection an the layered convection systems. Global seismic imaging and deep source seismic data have revealed that some formerly subducted fragments (slabs) seem to have continuously or intermittently sunk to the CMB and returned into the mantle plumes originated from the boundary. At present time, the most important task is how to establish an unified model between the whole-mantle convecting and the layered convection systems, rather than arguing whether the whole-mantle convection or the layered convection dominates independently the dynamic system. An integrated study, in terms of theoretical, experimental and numerical simulations on the whole-mantle convection system which is undoubtedly accompanied by the layered convection, locally small-scale of secondary convection during its spatial and temporal evolutionary history, consitues a main direction of today’s geodymamics.