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湖北宜昌地区奥陶纪层序地层及扬子地区五峰组沉积环境的讨论

肖传桃 姜衍文 朱忠德 李艺斌 潘云唐   

  1. 江汉石油学院地质系
  • 收稿日期:1996-09-20 修回日期:1996-09-20 出版日期:1996-09-20 发布日期:1996-09-20

A STUDY ON ORDOVICIAN SEQUENCE STRATIGRAPHY IN YICHANG DISTRICT, HUBEI PROVINCE AND SEDIMENTARY ENVIRONMENT OF THE WUFENG FORMATION IN YANGTZE AREA

Xiao Chuantao1, Jiang Yanwen1, Zhu Zhongde1, Li Yibin1, Pan Yuntang2   

  1. 1. Jianghan College of petroleum, Jiangsha, Hubei, 434102; 2.Graduate School, Academia Sinica, Beijing,100039
  • Received:1996-09-20 Revised:1996-09-20 Online:1996-09-20 Published:1996-09-20

摘要: 运用露头层序地层学原理与方法,将宜昌地区奥陶系划分为三个Ⅱ型层序,并阐述了各层序的体系域特征和形成的沉积动力学机制以及海平面变化对沉积、生物迁移及环境的控制作用。认为研究区奥陶纪存在三个海平面变化旋回,第一个旋回发生于两河口期早期至晚期;第二个旋回发生于两河口期末期至大湾期初期;第三个旋回发生于大湾期早期至五峰期末期,并识别出两个平衡型碳酸盐岩体系。研究结果表明,宜昌地区下奥陶统生物礁均形成了高峰海平面时期,五峰期早期为海平面的最大上升期,五峰页岩属典型的凝缩段沉积,观音桥段形成于高海平面时期。在对五峰组沉积速率、生态及沉积特征等分析基础上,认为五峰组页岩段和琨音桥段均形成于深海盆地环境中。

Abstract: The Ordovician system in Yichang district is divided into three II type sequences by using the principle and method of outcrop sequence strtigraphy. The characteristics and their sedimentary dynamic mechanism of the individual system tractst, the controls of sea level changes on sedimentary process, organism migration and the environment are elucidated as well. It is believed that there are three sea level change cycles during the Ordovician period in the study area: the first one occurred from early to late Lianghekou age; the second one from the end of Lianghekou to the beginning og Dawan age; and the third one from early Dawan age to terminal Wufeng age. Two keep-up type carbonate systems are recognized. The result shows that the Lower Ordovician bioreefs in Yichang district formed during high sea level periods. The early Wufeng age reached the maximum of sea level rising, and the Wufeng shale is considered to be a typical condensed section, while the Guanyingqiao Member formed within high sea level period. Based on the analysis of the sedimentary rate, ecologic and sedimentary aspects, it is believed that both the Wufeng shale Member and the Guanyingqiao Member are formed in deep sea basin environment.