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Hou Fanghao, Fang Shaoxian, Zhang Tingshan, Dong Zhaoxiong, Wu Yi. Late Paleozoic Deep Water Carbonates and Their Relation-ship with Oil and Gas, South China[J]. Acta Sedimentologica Sinica, 1992, 10(3): 133-144.
Citation: Hou Fanghao, Fang Shaoxian, Zhang Tingshan, Dong Zhaoxiong, Wu Yi. Late Paleozoic Deep Water Carbonates and Their Relation-ship with Oil and Gas, South China[J]. Acta Sedimentologica Sinica, 1992, 10(3): 133-144.

Late Paleozoic Deep Water Carbonates and Their Relation-ship with Oil and Gas, South China

  • Publish Date: 1992-09-10
  • The deep water carbonate study in China began at the end of 70s. The Late Paleozoic and Early Triassic deep water carbonates in Nanpan River area is far better Known, as a whole, than are the those else-where in China, which were initially described and studied in some detail by Carbonate Research Section of SWPI. Since 1980, Subsequent work has been done more detaily by many people and units. Deep Water Carbonates which bear several kinds of mineral resources, distribute in East Yunnan, South Guizhou, Guangxi, North Guangdong and South Hunan from Late Paleozoic to Early Triassic, and with very thick sequences. Detailed research on deep water carbonate in this area has obviously theoretical and economic significance. During the Late Paleozoic, the research area located at the passive continental margin of S-SW part of South China Plate. The main tectonism that developed in this area was rift. There were a series of NW and NE rifts occured, but the main orientation was NE. The grabens surrounded the isolated horsts and had long active history. There were also a series of NE and NW rifts developed on the in-continente in North Guangxi, North Guangdong and South Hunan and created grabens which surrounded the isolated horsts. These isolated horsts, with near-shore platforms, developed into isolated carbonate platforms and the inherited shallow water carbonate depositional areas while the narrow grabens in which the deep water carbonate turbidites and some volcanic clastic turbidites, as well as silicatites deposited. On the slopes of isolated platforms, the by-pass margin depositional beds developed. The generation, development and extinction of rifts and splitting fault troughs were not simultaneously and formed discordant interplatform trough, platform margin slope environments. Except Qingzhou inherited surviving trough, the rift troughs developed at the continental margin area in South east Yunnan, South west Guangxi at the first time. From the continental margin to in-continental area, the development of rift troughs was tardy gradually with NE trend. The rift troughs in South Hunan has not start to develop until Late Devonian. The paleo-geographic framework of trough-platform extincted in Late Carboniferous in Northeast Guangxi. After the Dongwu Orogery, the trough- platform framework survived only in Nanpan River depression area and continued to Middle Triassic. The strong tectogenesis and deep rift troughs developed all over the Late Paleozoic, the obviously volcanic activity distributed along the rifts. The isolated platforms, which were limited by deep rift troughs, were relatively small in area and with great on numbers. Meanwhile, very weak tectogenesis and shallow rifts developed in the in-continental area. No volcano acted along the shallow troughs. The by-pass margin-depositional margin or depositional margin sediments occured on the slopes. Usually tie continental platform margins show the characteristics of ramp with very thick depositional margin sediments sequences. The extinction of platform-trough framework was as a result of weak tectogenesis and super-input of sediments. During the Late Carboniferous (Weining stage) , the small rift troughs with some deep water carbonates developed in Longyan, West Fujian, Guangzhou and Zhaoqing, South Guangdong. Including isolated platforms, inter-platform troughs and the margin slope of tie continental platform, the deep water environment is determined as under storm wave base. According to petrologic, paleotonlogic, paleoecologic characteristics, intergrated with the information of trough development and platform margin topographic condition, the research area can be divided into several sub-environments in the Late Paleozoic. According to geochemical analyses, the very prospective hydrocarbon source rocks distribute in the middle to low margin slopes of isolated platform, deep ramps of tie continental platform margin and inter-platform troughs. Although the content of organic carbon is higher and the silicalite and siliceous mud are the good hydrocarbon
  • [1] (1) 西南石油,学院碳酸盐岩研究室,1982.西南石油学院学报,4卷,1期,1--26页

    (2) 侯方浩、黄继祥,1984,沉积学报,2卷,4期,19-32页

    (3) 方少汕,侯方浩.1986,沉积学报,4卷,3期,30-42页

    (4) 中国石油学会石油地质委员会编辑,1986,国外浊积岩和扇三角洲研究,石油工业出版社。

    (5) 卢卫平,方少仙,1986.西南石油学院学报、8卷,2期,1-10页

    (6) 侯方浩等,1988.西南石油学院学报,10卷4期,1-19页

    (7) 吴治等,1988.广西泥盆纪沉积相古地理及矿产,广西人民出版村.

    (8) 方少仙等,1989,中国南方泥盆、石炭纪岩相古地理及含油气研究,含油气盆地沉积相与油气分布论文集,石油工业出版社

    (9) 穆曙光,侯方浩,方少仙,1989.西南石油学院学报.11卷4期,25-31 页

    (10) 侯力浩,方少仙,1980,石油勘探与开发,17卷,2期,1-12页

    (11) 张帆,方少仙、1990,沉积学报,8卷,4期,22-31页

    (12) 侯少浩,方少仙等、1991.西南地区古生界海相碳酸盐岩沉积相模式及其在油气勘探中的应用‘成都科技大学出版社

    (13) Cook H. E. and P. Enos, 1977, Deep-Water Carbonate Environments

    (14) Kead I. F 1985, A. A. P. G. V.69. No.p.1-21.
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  • Published:  1992-09-10

Late Paleozoic Deep Water Carbonates and Their Relation-ship with Oil and Gas, South China

Abstract: The deep water carbonate study in China began at the end of 70s. The Late Paleozoic and Early Triassic deep water carbonates in Nanpan River area is far better Known, as a whole, than are the those else-where in China, which were initially described and studied in some detail by Carbonate Research Section of SWPI. Since 1980, Subsequent work has been done more detaily by many people and units. Deep Water Carbonates which bear several kinds of mineral resources, distribute in East Yunnan, South Guizhou, Guangxi, North Guangdong and South Hunan from Late Paleozoic to Early Triassic, and with very thick sequences. Detailed research on deep water carbonate in this area has obviously theoretical and economic significance. During the Late Paleozoic, the research area located at the passive continental margin of S-SW part of South China Plate. The main tectonism that developed in this area was rift. There were a series of NW and NE rifts occured, but the main orientation was NE. The grabens surrounded the isolated horsts and had long active history. There were also a series of NE and NW rifts developed on the in-continente in North Guangxi, North Guangdong and South Hunan and created grabens which surrounded the isolated horsts. These isolated horsts, with near-shore platforms, developed into isolated carbonate platforms and the inherited shallow water carbonate depositional areas while the narrow grabens in which the deep water carbonate turbidites and some volcanic clastic turbidites, as well as silicatites deposited. On the slopes of isolated platforms, the by-pass margin depositional beds developed. The generation, development and extinction of rifts and splitting fault troughs were not simultaneously and formed discordant interplatform trough, platform margin slope environments. Except Qingzhou inherited surviving trough, the rift troughs developed at the continental margin area in South east Yunnan, South west Guangxi at the first time. From the continental margin to in-continental area, the development of rift troughs was tardy gradually with NE trend. The rift troughs in South Hunan has not start to develop until Late Devonian. The paleo-geographic framework of trough-platform extincted in Late Carboniferous in Northeast Guangxi. After the Dongwu Orogery, the trough- platform framework survived only in Nanpan River depression area and continued to Middle Triassic. The strong tectogenesis and deep rift troughs developed all over the Late Paleozoic, the obviously volcanic activity distributed along the rifts. The isolated platforms, which were limited by deep rift troughs, were relatively small in area and with great on numbers. Meanwhile, very weak tectogenesis and shallow rifts developed in the in-continental area. No volcano acted along the shallow troughs. The by-pass margin-depositional margin or depositional margin sediments occured on the slopes. Usually tie continental platform margins show the characteristics of ramp with very thick depositional margin sediments sequences. The extinction of platform-trough framework was as a result of weak tectogenesis and super-input of sediments. During the Late Carboniferous (Weining stage) , the small rift troughs with some deep water carbonates developed in Longyan, West Fujian, Guangzhou and Zhaoqing, South Guangdong. Including isolated platforms, inter-platform troughs and the margin slope of tie continental platform, the deep water environment is determined as under storm wave base. According to petrologic, paleotonlogic, paleoecologic characteristics, intergrated with the information of trough development and platform margin topographic condition, the research area can be divided into several sub-environments in the Late Paleozoic. According to geochemical analyses, the very prospective hydrocarbon source rocks distribute in the middle to low margin slopes of isolated platform, deep ramps of tie continental platform margin and inter-platform troughs. Although the content of organic carbon is higher and the silicalite and siliceous mud are the good hydrocarbon

Hou Fanghao, Fang Shaoxian, Zhang Tingshan, Dong Zhaoxiong, Wu Yi. Late Paleozoic Deep Water Carbonates and Their Relation-ship with Oil and Gas, South China[J]. Acta Sedimentologica Sinica, 1992, 10(3): 133-144.
Citation: Hou Fanghao, Fang Shaoxian, Zhang Tingshan, Dong Zhaoxiong, Wu Yi. Late Paleozoic Deep Water Carbonates and Their Relation-ship with Oil and Gas, South China[J]. Acta Sedimentologica Sinica, 1992, 10(3): 133-144.
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