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我国境内格林威尔期造山带的存在及其对中元古代末期超大陆再造的制约
引用本文:李江海,穆剑.我国境内格林威尔期造山带的存在及其对中元古代末期超大陆再造的制约[J].地质科学,1999,34(3):259-272.
作者姓名:李江海  穆剑
作者单位:1. 北京大学地质学系, 北京100871;2. 中国石油天然气集团公司油气勘探部, 北京100724
摘    要:中元古代超大陆Rodinia 再造研究最重要的问题之一就是围绕全球格林威尔期(1.0Ga)造山带的构造演化对比,详细的构造分析表明,我国境内至少存在两条格林威尔期造山带(北秦岭造山带及江南造山带),它们以活动陆缘增生型造山带为主,涉及板块俯冲、岛弧-弧后盆地的发育,以及微陆块的碰撞作用。这些造山带发育的时代主要集中于1.0-0.9Ga,它们在时代上与北美、欧洲格林威尔期造山带具有很好的可比性,成为制约我国主要陆块(华北、扬子)在超大陆中拼合方式最主要的证据之一。

关 键 词:中元古代  造山带  活动陆缘  超大陆  构造对比
收稿时间:1998-12-03
修稿时间:1998-12-03;

TECTONIC CONSTRAINTS FROM CHINESE CRATONIC BLOCKS FOR THE RECONSTRUCTION OF RODINIA
Li Jianghai.TECTONIC CONSTRAINTS FROM CHINESE CRATONIC BLOCKS FOR THE RECONSTRUCTION OF RODINIA[J].Chinese Journal of Geology,1999,34(3):259-272.
Authors:Li Jianghai
Institution:1. Department of Geology, Peking University, Beijing 100871;2. Exploration Department, China National Petroleum Cooperation, Beijing 100724
Abstract:The argument on tectonic position of Chinese cratonic blocks(CCBs)in reconstruction of Rodinia is due to inadequent tectonic constratints and correlation of CCBs with other cratonic blocks of the world. Tectonic analysis of CCBs on available data indicates that there are several Grenville-age orogenic belts in China. North Qinling orogenic belt(NQOB)along southern margin of North China Craton(NCC),mainly consists of back-arc basin assemblages, island-arc complex, and Mesoproterozoic ophiolite relics(1.0Ga). To its southern side NQOB is reworked and truncated by South Qinling-Dabie Phanerozoic orogenic belt. Its tectonic history could be summarized as rifting of southern margin of NCC(1.85Ga-1.40Ga), followed by active continental marginal collision between NCC and an island-arc(1.0Ga). It is an accretionary orogen along southern margin of NCC, rather than multiphase collisional orogen between yangzte craton(YC)and NCC. Along the northern margin of NCC are also identified the Mesoproterozoic orogenic records(1.0-1.4Ga). The Mesoproterozoic marginal orogenies exert a strong influence on North China cratonic basin, leading to the occurrence of a major unconformity(1.00Ga)separting from underlying Mesoproterozoic and overlying Neoproterozoic cratonic cover sequences, asssociated with widespread marine regression and tectonic difference of NCC from west to east(~1.0Ga). Jiangnan orogenic belt located in southeast margin of YC could be subdivided into ophiolite(1.00 Ga), back-arc turbidite(1.10-0.90Ga), island-arc volcanics granites(0.96-0.93Ga)and S type granites(0.90-0.96Ga). Its tectonic evolution could be interpreted as subduction along SE margin of YC(1.30-1.20Ga)followed by collision of YC Jiangnan island-arcs Cathaysia. Cathaysia records at least three major Precambrian tectono thermal events(1.0Ga, 1.8-1.9Ga, 2.4-2.7Ga),among which 1.0Ga event is clearly associated with collision of YC with Cathaysia. Moreover, Mesoproterozoic orogenic records(1.0-1.2Ga)and ophiolite(1.0Ga)have been also recognized along western margin of YC, resulted tectonism along the active continental margin. The delineation of Mesoproterozoic tectonic unites and relevant episodes suggest that CCBs should be ancient fragmented cartonic blocks, rather than isolated continental nuclei’s. The tectonic correlation of CCBs with other cratons of the world on Mesoproterozoic tectonics will provide important constraints for reconstruction of Rodinia.
Keywords:Mesoproterozoic  Orogenic belts  Active continental margin  Rodinia  Tectonic correlation
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