东北亚中生代洋陆过渡带的研究及启示

从中生代起,亚洲大陆作为一个统一的大陆岩石圈板块,开始了大陆边缘的组建和改造。本文采用构造地层-地体观点,依据生物地层学和碰撞造山带的不同特征,将东北亚洋陆过渡带从西到东分成了7个带:(1)受郯庐断裂系改造的华北克拉通东缘带;(2)以近陆缘物质为主的增生带I;(3)以异源混杂堆积为主的增生带II;(4)新西伯利亚-楚科奇-阿拉斯加陆缘增生带III;(5)陆缘火山-深成岩带;(6)科里亚克增生带IV;(7)堪察加-萨哈林-东北日本增生带V。其中自早白垩世末至古新世初形成的楚科奇海-东锡霍特阿林的火山-深成岩带作为太平洋板块开始正向俯冲并导致弧岩浆活动的重要标志。此前晚三叠世至早白垩世末,在转换大...

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Main Authors:	邵济安, 唐克东
Other Authors:	Shao, JA (reprint author), Peking Univ, Minist Educ, Key Lab Orogen Belts & Crustal Evolut, Sch Earth & Space Sci, Beijing 100871, Peoples R China., 造山带与地壳演化教育部重点实验室北京大学地球与空间科学学院, 沈阳地质矿产研究所
Format:	Journal/Newspaper
Language:	Chinese
Published:	岩石学报 2015
Subjects:	东北亚中生代洋陆过渡带转换大陆边缘正向俯冲 Northeast Asia Mesozoic Ocean-continent transitional zone Transform margin Normal subduction CORDILLERA EVOLUTION PACIFIC RUSSIA BASIN MA Pacific Chukotka Kamchatka Koryak Sakhalin Alaska
Online Access:	https://hdl.handle.net/20.500.11897/432699

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record_format	openpolar
spelling	ftpekinguniv:oai:localhost:20.500.11897/432699 2023-05-15T15:54:54+02:00 东北亚中生代洋陆过渡带的研究及启示 Research on the Mesozoic ocean-continent transitional zone in the Northeast Asia and its implications 邵济安唐克东 Shao, JA (reprint author), Peking Univ, Minist Educ, Key Lab Orogen Belts & Crustal Evolut, Sch Earth & Space Sci, Beijing 100871, Peoples R China. 造山带与地壳演化教育部重点实验室北京大学地球与空间科学学院沈阳地质矿产研究所 2015 https://hdl.handle.net/20.500.11897/432699 zh chi 岩石学报岩石学报.2015,(10),3147-3154. 1387825 1000-0569 http://hdl.handle.net/20.500.11897/432699 WOS:000364731300015 万方知网 SCI CSCD 东北亚中生代洋陆过渡带转换大陆边缘正向俯冲 Northeast Asia Mesozoic Ocean-continent transitional zone Transform margin Normal subduction CORDILLERA EVOLUTION PACIFIC RUSSIA BASIN MA Journal 2015 ftpekinguniv https://doi.org/20.500.11897/432699 2021-08-01T10:46:18Z 从中生代起,亚洲大陆作为一个统一的大陆岩石圈板块,开始了大陆边缘的组建和改造。本文采用构造地层-地体观点,依据生物地层学和碰撞造山带的不同特征,将东北亚洋陆过渡带从西到东分成了7个带:(1)受郯庐断裂系改造的华北克拉通东缘带;(2)以近陆缘物质为主的增生带I;(3)以异源混杂堆积为主的增生带II;(4)新西伯利亚-楚科奇-阿拉斯加陆缘增生带III;(5)陆缘火山-深成岩带;(6)科里亚克增生带IV;(7)堪察加-萨哈林-东北日本增生带V。其中自早白垩世末至古新世初形成的楚科奇海-东锡霍特阿林的火山-深成岩带作为太平洋板块开始正向俯冲并导致弧岩浆活动的重要标志。此前晚三叠世至早白垩世末,在转换大. A continental margin has been composed and transformed on the Asian continent as a unitary continental lithosphere plate since the Mesozoic. The Northeast Asia ocean-continent transitional zone is identified by the authors, according to the viewpoint of tectonostratigraphic terrane, as consisted of seven belts with different characters of biostratigraphy and collision orogenes (1) the east margin of the North China Craton reconstructed by Tanlu fault system; (2) accretion zone I dominated by nearly terrigenous materials; (3) accretion zone II dominated by heterologous melanges; (4) accretion zone III of the New Siberian-Chukotka-Alaska continental margin; (5) the volcano-plutonic zone of the continental margin; (6) accretion zone IV (the Koryak accretion zone); and (7) accretion zone V (Kamchatka-Sakhalin-Northeastern Japan accretion zone). Among those the Chukotka sea-East Sikhote-Alin volcano-plutonic zone, which is mainly of the Late Cretaceous, especially marks beginning of normal subduction of the Pacific plate and subsequent arc-magmatic activities. Early in the Late Triassic-Early Cretaceous, a large number of terranes migrated northward and joined together obliquely to the continental margin in a sinistral transcurrent faulting of the active transform margin. The evolution of the relative movements between the ocean and the continent in the Northeast Asia continental margin is clearly demonstrated by such a spatiotemporal pattern with its special zonation and periodicity. This study is used, jointly with recent results in related disciplines, to discussions of the relation between the Mesozoic magmatism in the eastern China with subduction of the Pacific plate. It is concluded that the peak period of the large-scale magmatism in the Late Jurassic-Early Cretaceous is in coincidence with period in which the ocean-continent transition zone is active and terranes accretion occurs in the Northeast Asia continental margin. As mentioned in this work, however, the normal subduction of Pacific Plate occurs in the end of the Early Cretaceous to the Late Cretaceous, when the large-scale magmatism has ended. It is, therefore, difficult to link the magmatic activities in eastern China with the subduction of the Pacific plate. Taking the Da Hinggan Mts. composed of young continental crust as an example, the authors suggest that the source characteristics of eastern China magmatism and its intrusive space are controlled by two geological processes in different depths in the Late Jurassic-Early Cretaceous simultaneously, i.e. the upwelling of deep diapers of asthenosphere and the deformation of the middle-upper crust subjected to shear strike-slip between the ocean and the continent. SCI(E) 中文核心期刊要目总览(PKU) 中国科技核心期刊(ISTIC) 中国科学引文数据库(CSCD) wangcc@tsinghua.edu.cn 10 3147-3154 31 Journal/Newspaper Chukotka Kamchatka Koryak Sakhalin Alaska Peking University Institutional Repository (PKU IR) Pacific
institution	Open Polar
collection	Peking University Institutional Repository (PKU IR)
op_collection_id	ftpekinguniv
language	Chinese
topic	东北亚中生代洋陆过渡带转换大陆边缘正向俯冲 Northeast Asia Mesozoic Ocean-continent transitional zone Transform margin Normal subduction CORDILLERA EVOLUTION PACIFIC RUSSIA BASIN MA
spellingShingle	东北亚中生代洋陆过渡带转换大陆边缘正向俯冲 Northeast Asia Mesozoic Ocean-continent transitional zone Transform margin Normal subduction CORDILLERA EVOLUTION PACIFIC RUSSIA BASIN MA 邵济安唐克东东北亚中生代洋陆过渡带的研究及启示
topic_facet	东北亚中生代洋陆过渡带转换大陆边缘正向俯冲 Northeast Asia Mesozoic Ocean-continent transitional zone Transform margin Normal subduction CORDILLERA EVOLUTION PACIFIC RUSSIA BASIN MA
description	从中生代起,亚洲大陆作为一个统一的大陆岩石圈板块,开始了大陆边缘的组建和改造。本文采用构造地层-地体观点,依据生物地层学和碰撞造山带的不同特征,将东北亚洋陆过渡带从西到东分成了7个带:(1)受郯庐断裂系改造的华北克拉通东缘带;(2)以近陆缘物质为主的增生带I;(3)以异源混杂堆积为主的增生带II;(4)新西伯利亚-楚科奇-阿拉斯加陆缘增生带III;(5)陆缘火山-深成岩带;(6)科里亚克增生带IV;(7)堪察加-萨哈林-东北日本增生带V。其中自早白垩世末至古新世初形成的楚科奇海-东锡霍特阿林的火山-深成岩带作为太平洋板块开始正向俯冲并导致弧岩浆活动的重要标志。此前晚三叠世至早白垩世末,在转换大. A continental margin has been composed and transformed on the Asian continent as a unitary continental lithosphere plate since the Mesozoic. The Northeast Asia ocean-continent transitional zone is identified by the authors, according to the viewpoint of tectonostratigraphic terrane, as consisted of seven belts with different characters of biostratigraphy and collision orogenes (1) the east margin of the North China Craton reconstructed by Tanlu fault system; (2) accretion zone I dominated by nearly terrigenous materials; (3) accretion zone II dominated by heterologous melanges; (4) accretion zone III of the New Siberian-Chukotka-Alaska continental margin; (5) the volcano-plutonic zone of the continental margin; (6) accretion zone IV (the Koryak accretion zone); and (7) accretion zone V (Kamchatka-Sakhalin-Northeastern Japan accretion zone). Among those the Chukotka sea-East Sikhote-Alin volcano-plutonic zone, which is mainly of the Late Cretaceous, especially marks beginning of normal subduction of the Pacific plate and subsequent arc-magmatic activities. Early in the Late Triassic-Early Cretaceous, a large number of terranes migrated northward and joined together obliquely to the continental margin in a sinistral transcurrent faulting of the active transform margin. The evolution of the relative movements between the ocean and the continent in the Northeast Asia continental margin is clearly demonstrated by such a spatiotemporal pattern with its special zonation and periodicity. This study is used, jointly with recent results in related disciplines, to discussions of the relation between the Mesozoic magmatism in the eastern China with subduction of the Pacific plate. It is concluded that the peak period of the large-scale magmatism in the Late Jurassic-Early Cretaceous is in coincidence with period in which the ocean-continent transition zone is active and terranes accretion occurs in the Northeast Asia continental margin. As mentioned in this work, however, the normal subduction of Pacific Plate occurs in the end of the Early Cretaceous to the Late Cretaceous, when the large-scale magmatism has ended. It is, therefore, difficult to link the magmatic activities in eastern China with the subduction of the Pacific plate. Taking the Da Hinggan Mts. composed of young continental crust as an example, the authors suggest that the source characteristics of eastern China magmatism and its intrusive space are controlled by two geological processes in different depths in the Late Jurassic-Early Cretaceous simultaneously, i.e. the upwelling of deep diapers of asthenosphere and the deformation of the middle-upper crust subjected to shear strike-slip between the ocean and the continent. SCI(E) 中文核心期刊要目总览(PKU) 中国科技核心期刊(ISTIC) 中国科学引文数据库(CSCD) wangcc@tsinghua.edu.cn 10 3147-3154 31
author2	Shao, JA (reprint author), Peking Univ, Minist Educ, Key Lab Orogen Belts & Crustal Evolut, Sch Earth & Space Sci, Beijing 100871, Peoples R China. 造山带与地壳演化教育部重点实验室北京大学地球与空间科学学院沈阳地质矿产研究所
format	Journal/Newspaper
author	邵济安唐克东
author_facet	邵济安唐克东
author_sort	邵济安
title	东北亚中生代洋陆过渡带的研究及启示
title_short	东北亚中生代洋陆过渡带的研究及启示
title_full	东北亚中生代洋陆过渡带的研究及启示
title_fullStr	东北亚中生代洋陆过渡带的研究及启示
title_full_unstemmed	东北亚中生代洋陆过渡带的研究及启示
title_sort	东北亚中生代洋陆过渡带的研究及启示
publisher	岩石学报
publishDate	2015
url	https://hdl.handle.net/20.500.11897/432699
geographic	Pacific
geographic_facet	Pacific
genre	Chukotka Kamchatka Koryak Sakhalin Alaska
genre_facet	Chukotka Kamchatka Koryak Sakhalin Alaska
op_source	万方知网 SCI CSCD
op_relation	岩石学报.2015,(10),3147-3154. 1387825 1000-0569 http://hdl.handle.net/20.500.11897/432699 WOS:000364731300015
op_doi	https://doi.org/20.500.11897/432699
_version_	1766390147441491968

东北亚中生代洋陆过渡带的研究及启示

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