大陆俯冲带热结构的数值模拟 |
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引用本文: | 冷伟,孙郁东. 大陆俯冲带热结构的数值模拟[J]. 地球科学, 2019, 44(12): 3993-3997. DOI: 10.3799/dqkx.2019.253 |
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作者姓名: | 冷伟 孙郁东 |
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作者单位: | 中国科学技术大学地球和空间科学学院, 地震与地球内部物理实验室, 安徽合肥 230026 |
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基金项目: | 国家重点基础研究发展计划项目2015CB856106 |
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摘 要: | 俯冲带热结构是控制俯冲板块演化的最主要因素之一.前人通过建立解析模型和数值模型对大洋俯冲带热结构进行了一系列研究,发现俯冲板块年龄和俯冲速度是影响俯冲带热结构的关键因素.为了认识大陆俯冲带热结构,特别是理解数值模型结果与岩石学结果之间的差异,我们建立了二维大陆俯冲带运动学和动力学数值模型研究其热结构演化.模型结果显示,如果大陆俯冲板块的俯冲速度与角度和大洋板块一致的话,较低的大陆俯冲带初始温度导致其板块温度比大洋俯冲带低.但是,当大陆俯冲板块的初始温度较高,俯冲速度超慢并且考虑大陆地壳中的放射性元素生热时,模型得到的大陆俯冲带热结构能够解释通过高压和超高压变质岩得到的较热的俯冲板块温度.另一方面,如果俯冲板块与上覆板块存在动力学解耦作用,也能够得到较热的俯冲温压数据.
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关 键 词: | 俯冲带 热结构 大陆俯冲带 数值模型 地球动力学 |
收稿时间: | 2019-08-27 |
Numerical Modeling of Thermal Structure for the Continental Subduction Zones |
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Abstract: | The thermal structure of subduction zone is one of the most important factors controlling the evolution of subduction plate. Previous studies on the thermal structure of oceanic subduction zones have been carried out by establishing analytical and numerical models. It is found that the age and velocity of the subduction plate are the key factors affecting the thermal structure of the subduction zones. In order to further understand the thermal structure of the continental subduction zone,especially to understand the difference between the numerical model results and petrological results,we established two-dimensional numerical kinematic and geodynamic models of the continental subduction zone to study its thermal structure evolution. The model results show that if the subduction velocity and dip angle of the continental plate are the same as those of the oceanic plate,lower initial temperature causes the continental subduction zone to be colder than the oceanic subduction zone. However,when the initial temperature of the continental plate is high,the subduction velocity is super slow and the heat generation of radioactive elements in the continental crust is taken into account,the thermal structure of the continental subduction zone obtained by the model can explain the hot subduction temperature obtained from high-pressure and ultra-high-pressure metamorphic rocks. On the other hand,if there is dynamic decoupling between the subduction plate and the overlying plate,the hot subduction temperature can also be obtained. |
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