机构地区:[1]School of Earth Sciences,Northeast Petroleum University,Daqing,163318,China [2]Department of Geoscience,University of Indonesia,Depok,16424,Indonesia [3]School of Computer and Information Technology,Northeast Petroleum University,Daqing,163318,China [4]Center for Earthquake Research and Information,University of Memphis,Memphis,38152,USA [5]College of Environment and Civil Engineering,Chengdu University of Technology,Chengdu,610059,China [6]School of Petroleum Engineering,China University of Petroleum,Qingdao,266555,China [7]School of Physics and Electronic Engineering,Northeast Petroleum University,Daqing,163318,China
出 处:《Earthquake Research Advances》2024年第2期72-81,共10页地震研究进展(英文)
基 金:supported by the Outstanding Youth Project of Natural Science Foundation of Heilongjiang(YQ2023D006).
摘 要:Shear wave splitting(SWS)is regarded as the most effective geophysical method to delineate mantle flow fields by detecting seismic azimuthal anisotropy in the earth's upper mantle,especially in tectonically active regions such as subduction zones.The Aleutian-Alaska subduction zone has a convergence rate of approximately 50 mm/yr,with a trench length reaching nearly 2800 km.Such a long subduction zone has led to intensive continental deformation and numerous strong earthquakes in southern and central Alaska,while northern Alaska is relatively inactive.The sharp contrast makes Alaska a favorable locale to investigate the impact of subduction on mantle dynamics.Moreover,the uniqueness of this subduction zone,including the unusual subducting type,varying slab geometry,and atypical magmatic activity and composition,has intrigued the curiosity of many geoscientists.To identify different sources of seismic anisotropy beneath the Alaska region and probe the influence of a geometrically varying subducting slab on mantle dynamics,extensive SWS analyses have been conducted in the past decades.However,the insufficient station and azimuthal coverage,especially in early studies,not only led to some conflicting results but also strongly limited the in-depth investigation of layered anisotropy and the estimation of anisotropy depth.With the completion of the Transportable Array project in Alaska,recent studies have revealed more detailed mantle structures and characteristics based on the dense station coverage and newly collected massive seismic data.In this study,we review significant regional-and continental-scale SWS studies in the Alaska region and conclude the mantle flow fields therein,to understand how a geometrically varying subducting slab alters the regional mantle dynamics.The summarized mantle flow mechanisms are believed to be conducive to the understanding of seismic anisotropy patterns in other subduction zones with a complicated tectonic setting.
关 键 词:Seismic anisotropy Shear wave splitting Mantle flow Alaska subduction zone SLAB
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