| Citation: |
XIONG Guoqing, ZHOU Xiaolin, LI Xiaogang. 2022. Hirantian lithofacies palaeogeography and their geological significance for shale gas in Micangshan-Dabashan area. Sedimentary Geology and Tethyan Geology, 42(3): 368-384. doi: 10.19826/j.cnki.1009-3850.2022.04003
|
Hirantian lithofacies palaeogeography and their geological significance for shale gas in Micangshan-Dabashan area
-
Abstract
A unique sedimentary unit with Hirantina-Dalmanitina fauna develops in the upper Yangtze block. Its sedimentary environment is controversial and the detailed study of its space-time changes of sedimentary facies is deficient. In this paper, by the ways of systematic data collection, detailed observation of outcrops, detailed microscopic studies and analyses of thin sections, and the "point-line-plane" analytical method of lithofacies palaeogeography, the Hirantian lithofacies and palaeogeography in Micangshan-Dabashan area have been rebuilt. Analyses of sedimentary facies show that the Guanyinqiao Member in the study area developed in different sedimentary environments with different lithofacies. It was the product of Hirantian sealevel fall, and more than one sea level fluctuation happened during Hirantian period. The sedimentary records of the marine regression are relatively obvious, with the transgression records responding only at the edge or the underwater highlands of the Yangtze basin. The recovered paleoeography shows a sedimentary paleogeographical pattern high in the north, low in the north and the west, and a number of underwater highlands in the middle, which is conducive to the formation of high-quality organic-rich shales in the Yangtze craton basin. Sedimentary facies of Guanyinqiao Member in the study area are dominated by continental shelf facies, especially the shallow shelf sub-facies, with some local isolated platforms and carbonate ramps, and the littoral facies are only distributed in Yangtze craton basin along the northwestern margin of the old land in the region at that time. The continental shelf facies developing silty mudstones and carbonificious mudstones, which is far away from sedimentary provenances and submarine highs, are the high-quality reservoir rocks for shale gas. It is suggested that in order to promote the production of shale gas in the isolated platforms and carbonate ramps, dolostone and muddy limestone layers of the Wufeng-Longmaxi Formation should be fractured throughout. -
-
References
Brenchley P J, Marshall J D, Carden G A F, et al., 1994.Bathymetric and isotopic evidence for a short-lived Late Ordovician glaciations in a greenhouse period[J].Geology, 22(4):295-298. Chen X, Rong J Y, Li Y, et al., 2004.Facies patterns and geography of the Yangtze region, South China, through the Ordovician and Silurian transition[J].Palaeogeography Palaeoclimatology Palaeoecology, 204(3-4):353-372. Ge X Y, Mou C L, Wang C S, et al., 2019.Mineralogical and geochemical characteristics of K-bentonites from the Late Ordovician to the Early Silurian in South China and their geological significance[J].Geological Journal, 54(1):514-528. Ghienne J F, Le Heron D, Moreau J, et al., 2007.The Late Ordovician glacial sedimentary system of the North Gondwana platform.Glacial sedimentary processes and products[M].Special Publication, edited by:Hambrey M, Christoffersen P, Glasser N.et al.International Association of Sedimentologists, Blackwells, Oxford, 39:295-319. Gradstein F M, Ogg J G, Schmitz M, et al., 2012.The geological time scale 2012[M].Amsterdam:Elsevier. Huang B, Harper D A T, Zhou H H, et al., 2020c.From shallow to deep-water:an ecological study of the Hirnantia brachiopod Fauna (Late Ordovician) and its global implications[J].Lethaia, doi.org/10.1111/LET.12360. Huang B, Rong J Y, Harper D A T, et al., 2020b.A nearshore Hirnantian brachiopod fauna from South China and its ecological significance[J].Journal of Paleontology, 94(2):239-254. Huang B, Zhou H H, Harper D A T, et al., 2020a.A latest Ordovician Hirnantia brachiopod fauna from western Yunnan, Southwest China and its paleobiogeographic significance[J].Palaeoworld, 29:31-46. Jin J S, Zhan R B, Wu R C.2018.Equatorial cold-water tongue in the Late Ordovician[J].Geology, 46(9):759-762. Le Heron D P, Craig J.2008.First-order reconstructions of a Late Ordovician Saharan ice sheet[J].Journal of the Geological Society, 165(1):19-29. Li C, Zhang J P, Li W J, et al., 2021.Multiple glacio-eustatic cycles and associated environmental changes through the Hirnantian (Late Ordovician) in South China[J].Global and Planetary Change, 207-103668.https://doi.org/10.1016/j.gloplacha.2021.103668. Ling M X, Zhan R B, Wang G X, et al., 2019.An extremely brief end Ordovician mass extinction linked to abrupt onset of glaciations[J].Solid Earth Sciences, 4(4):190-198. Loi A,Ghienne J F, Dabard M P.et al., 2010.The Late Ordovician glacio-eustatic record from a high latitude storm-dominated shelf succession:the Bou Ingarf section (Anti-Atlas, Southern Morocco)[J].Palaeogeography Palaeoclimatology Palaeoecology, 296(3-4):332-358. Rong J Y, Boucot A J, Harper D A T, et al., 2006.Global analyses of brachiopod faunas through the Ordovician and Silurian transition:reducing the role of the Lazarus effect[J].Canadian Journal of Earth Sciences, 43:23-39. Rong J Y, Happer D A T, 1988.The Ordovician-Silurian Boundary and the Hirnantia fauna[J].Lethaia, 21(2):168. Rong J Y, Harper D A T, Huang B, et al., 2020.The latest Ordovician Hirnantian brachiopod faunas:New global insights[J].Earth-Science Reviews, 208-103280.https://doi.org/10.1016/j.earscirev.2020.103280. Rong J Y, Xu C, Harper D A T, 2002.The latest Ordovician Hirnantia Fauna (Brachiopoda) in time and space[J].Lethaia, 35(3):231-249. Saltzman M R, Young S A, 2005.Long-lived glaciation in the Late Ordovician? Isotopic and sequence stratigraphic evidence from western Laurentia[J].Geology, 33(2):109-112. Scotese C R, McKerrow W S, 1990.Revised world maps and introduction[M], in McKerrow W S, Scotese C R.eds.Paleozoic paleogeography and biogeography:Geological Society[London] Memoir 12, 1-21. Scotese C R, McKerrow W S, 1991.Ordovician plate tectonic reconstructions[M].In:Barnes C R, Williams S H (Eds.), Advances in Ordovician geology.Geological Survey of Canada, 90(9):271-282. Sheehan P M, 2001.The Late Ordovician mass extinction[J].Annual Review Earth and Planetary Sciences, 29(29):331-364. Wang G X, Zhan R B, Percival I G, 2019.The end-Ordovician mass extinction:A single-pulse event?[J].Earth Science Reviews, 192:15-33. 蔡俊, 何幼斌, 张来, 等, 2010.中上扬子地区五峰组沉积环境分析[J].海洋地质动态, 26(6):24-30. 陈淑娥, 1997.陕西南郑福成奥陶系-志留系界线的笔石[J].西安地质学院学报, 19(3):1-8. 陈旭, 樊隽轩, 张元动, 等, 2015.五峰组及龙马溪组黑色页岩在扬子覆盖区内的划分与圈定[J].地层学杂志, 39(4):351-358. 陈旭, 丘金玉, 1986.宜昌奥陶纪古环境的演变[J].地层学杂志, 10(1):1-14. 陈旭, 徐均涛, 成汉钧, 等, 1990.论汉南古陆及大巴山隆起[J].地层学杂志, 14(2):81-116. 成汉钧, 王玉忠, 1991.五峰期上扬子淡化海成因之探讨[J].地层学杂志, 15(2):109-114. 成汉钧, 叶俭, 汪明渊, 1993.大巴山早古生代地层[M].西安:西北工业大学出版社:1-215. 董树文, 张岳桥, 龙长兴, 等, 2007.中国侏罗纪构造变革与燕山运动新诠释[J].地质学报, 81(1):1449-1461. 樊隽轩, Michael J M, 陈旭, 等, 2012.华南奥陶-志留系龙马溪组黑色笔石页岩的生物地层学[J].中国科学:地球科学, 42(1):130-139. 方一亭, 边立曾, 俞剑华, 1993.晚奥陶世五峰期上扬子板块沉积模式[J].沉积学报, 11(3):7-12. 冯洪真, 俞剑华, 方一亭, 1993.五峰期上扬子海古盐度分析[J].地层学杂志, 17(3):179-185. 高振中, 何幼斌, 李罗照, 等, 2008.中国南方上奥陶统五峰组观音桥段成因讨论:是"浅水介壳相",还是深水异地沉积?[J].古地理学报, 10(5):487-494. 葛梅钰, 1990.四川城口志留纪笔石[M].中国古生物志.北京:科学出版社:1-157. 葛祥英, 牟传龙, 周恳恳, 等, 2013.湖南晚奥陶世桑比期-凯迪期早期沉积特征及沉积模式[J].古地理学报, 15(1):59-68. 耿良玉, 1986.论扬子区五峰页岩的陆表海成因[C].见:中国古生物学会第十三、十四届学术年会论文选集, 合肥:安徽科技出版社:103-114. 金淳泰, 1982.西南地区地层总结(志留系)[M].地矿部成都地质矿产研究所, 56-61. 李佳欣, 2018.观音桥段地质特征及其对页岩气产量的影响——以南川地区为例[J].油气藏评价与开发, 8(4):68-72. 李文厚, 1997.南郑梁山奥陶系与志留系界线附近的沉积特征及沉积环境[J].地层学杂志, 21(2):146-151. 李耀西, 宋礼生, 周志强, 1975.大巴山西段早古生代地层志[M].北京:地质出版社:20-80. 梁峰, 拜文华, 邹才能, 等, 2015.渝东北地区巫溪2井页岩气富集模式及勘探意义[J].石油勘探与开发, 43(3):350-358. 刘秉理, 李建明, 1993.中扬子地区上奥陶统五峰组的缺失及其意义[J].江汉石油学院学报, 15(4):15-18. 刘第墉, 陈旭, 张太荣, 等, 1964.四川北部南江早古生代地层[J].中国科学院地质古生物研究所集刊, 地层文集1号:161-170. 刘伟, 许效松, 余谦, 等, 2012.中上扬子晚奥陶世赫南特期岩相古地理[J].成都理工大学学报(自然科学版), 39(1):32-39. 卢衍豪, 1959.中国南部奥陶纪地层分类和对比[M].北京:地质出版社:1-113. 牟传龙, 葛祥英, 许效松, 等, 2014.中上扬子地区晚奥陶世岩相古地理及其油气地质意义[J].古地理学报, 16(4):427-440. 牟传龙, 许效松, 2010.华南地区早古生代沉积演化与油气地质条件[J].沉积与特提斯地质, 30(3):24-29. 牟传龙, 周恳恳, 梁薇, 等, 2011.中上扬子地区早古生代烃源岩沉积环境与油气勘探[J].地质学报, 85(4):1-7. 穆恩之, 1954.论笔石页岩[J].古生物学报, 2(2):153-170. 潘桂棠, 肖庆辉, 陆松年, 等, 2009.中国大地构造单元划分[J].中国地质, 36(1):1-28. 戎嘉余, 陈旭, 1987.华南晚奥陶世的动物群分异及生物相、岩相分布模式[J].古生物学报, 26(3):507-535. 戎嘉余, 王怿, 詹仁斌, 等, 2012.论桐梓上升-志留纪埃隆晚期黔中古陆北扩的证据[J].地层学杂志, 36(3):679-692. 戎嘉余, 詹仁斌, 黄冰, 等, 2007.一个罕见的奥陶纪末期深水腕足动物群在浙江杭州余杭的发现[J].科学通报, 52:2632-2637. 戎嘉余, 1979.中国的赫南特贝动物群(Hirnantia fauna)并论奥陶系与志留系的分界[J].地层学杂志, 3(1):2-28. 戎嘉余, 1984.上扬子区晚奥陶世海退的生态地层证据与冰川活动影响[J].地层学杂志, 8(1):19-29. 汪啸风, 曾庆銮, 周天梅等, 1983.长江三峡东部地区奥陶纪晚期与志留纪初期的化石群并兼论奥陶系与志留系界线问题[J].中国地质科学院宜昌地质矿产研究所文集, 6:95-182. 汪啸风,陈孝红, Erdtmann B D, 1999."赫南特阶"和奥陶系-志留系界线的厘定[J].华南地质与矿产, 15(3):12-18. 汪啸风, 1989.中国奥陶纪古地理重建及其沉积环境与生物相特征[J].古生物学报, 28(2):234-248. 王红岩, 郭伟, 梁峰, 等, 2017.宣汉-巫溪地区五峰组-龙马溪组黑色页岩生物地层特征及分层对比[J].天然气工业, 37(7):27-33. 王汝植, 1981.西南地区地层总结(奥陶系)[M].成都地质矿产研究所, 28-33. 王怿, 樊隽轩, 张元动, 等, 2011.湖北恩施太阳河奥陶纪-志留纪之交沉积间断的研究[J].地层学杂志, 35(4):361-367. 王怿, 戎嘉余, 詹仁斌, 等, 2013.鄂西南奥陶系-志留系交界地层研究兼论宜昌上升[J].地层学杂志, 37(3):264-274. 王玉满, 董大忠, 黄金亮, 等, 2016.四川盆地及周边上奥陶统五峰组观音桥段岩相特征及对页岩气选区意义[J].石油勘探与开发, 43(1):42-50. 王远翀, 牟传龙, 梁薇, 等, 2015.扬子地块北缘晚奥陶世赫南特期岩相古地理[J].沉积与特提斯地质, 35(3):19-26. 吴伟, 谢军, 石学文, 等, 2017.川东北巫溪地区五峰组-龙马溪组页岩气成藏条件与勘探前景[J].天然气地球科学, 28(5):734-743. 武瑾, 梁峰, 吝文, 等, 2017.渝东北地区巫溪2井五峰组-龙马溪组页岩气储层及含气性特征[J].石油学报, 38(5):512-524. 肖斌, 刘树根, 冉波, 等, 2021.四川盆地北缘五峰组和龙马溪组沉积构造格局研究[J].地球科学, 46(7):2449-2465. 肖传桃, 姜衍文, 朱忠德, 等, 1996.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[J].高校地质学报, 2(3):339-346. 熊国庆, 王剑, 李园园, 等, 2017a.大巴山地区早古生代黑色岩系岩相古地理及页岩气地质意义[J].古地理学报, 19(6):965-986. 熊国庆, 王剑, 李园园, 等, 2017b.大巴山西段上奥陶统-下志留统五峰组-龙马溪组斑脱岩锆石U-Pb年龄及其地质意义[J].沉积与特提斯地质, 37(2):46-58. 熊国庆, 王剑, 李园园, 等, 2019a.大巴山地区晚奥陶世-早志留世"宜昌上升"的沉积响应[J].地质论评, 65(3):533-550. 熊国庆, 王剑, 李园园, 等, 2019b.南大巴山东段上奥陶统五峰组-下志留统龙马溪组钾质斑脱岩锆石U-Pb年龄及其构造意义[J].地质学报, 93(4):843-864. 熊国庆, 2020.大巴山地区奥陶-志留纪之交构造转换过程的沉积响应研究[D].成都:成都理工大学:148-183. 熊小辉, 王剑, 熊国庆, 等, 2018.渝东北奥陶-志留纪之交沉积地球化学及其环境演化-以城口地区燕麦剖面临湘组-龙马溪组为例[J].沉积学报, 36(2):257-266. 熊小辉, 王剑, 余谦, 等, 2015.富有机质黑色页岩形成环境及背景的元素地球化学反演-以渝东北地区田坝剖面五峰组-龙马溪组页岩为例[J].天然气工业, 35(4):25-32. 徐论勋, 肖传桃, 龚文平, 等, 2004.论扬子地区上奥陶统五峰组观音桥段的深海成因[J].地质学报, 78(6):726-732. 许效松, 万方, 尹福光, 等, 2001.奥陶系宝塔组灰岩的环境相,生态相与成岩相[J].矿物岩石, 21(3):64-68. 杨静华, 秦克令, 1988.陕西西乡志留纪下界年龄研究[J].中国地质科学院西安地质矿产研究所所刊, 21:39-45. 叶俭, 杨友运, 苏春乾, 等, 1992.大巴山南坡奥陶系的沉积环境分析[J].西安地质学院学报, 14(2):7-16. 俞剑华, 方一亭, 张大良, 1986.陕西西乡三郎铺奥陶系与志留系界线剖面[J].南京大学学报, 22(3):475-488. 詹仁斌, 刘建波, Ian G P, 等, 2010.华南上扬子区晚奥陶世赫南特贝动物群的时空演变[J].中国科学:地球科学, 40(9):1154-1163. 张柏桥, 孟志勇, 刘莉, 等, 2018.四川盆地涪陵地区五峰组观音桥段成因分析及其对页岩气开发的意义[J].石油实验地质, 40(1):30-43. 张国伟, 张本仁, 袁学诚, 等, 2001.秦岭造山带与大陆动力学[M].北京:科学出版社:1-855. 张琳娜, 樊隽轩, 陈清, 2016.华南上奥陶统观音桥层的空间分布和古地理重建[J].科学通报, 61(18):2053-2063. 赵兵, 1999.米仓山南缘奥陶纪地层新见[J].成都理工学院学报(自然科学版), 26(1):86-91. 周名魁, 王汝植, 李志明, 1993.中国南方奥陶纪-志留纪岩相古地理与成矿作用[M].北京:地质出版社:7-93. 周业鑫, 丁俊, 余谦, 等, 2017.渝东北地区观音桥段沉积与有机碳同位素特征及其区域对比[J].地质学报, 91(5):1097-1107. 朱兆玲, 林尧坤, 陈挺恩, 等, 1986."南郑页岩"时代的再认识[J].地层学杂志, 10(2):98-107. -
Access History
Export File
Citation
XIONG Guoqing, ZHOU Xiaolin, LI Xiaogang. 2022. Hirantian lithofacies palaeogeography and their geological significance for shale gas in Micangshan-Dabashan area. Sedimentary Geology and Tethyan Geology, 42(3): 368-384. doi: 10.19826/j.cnki.1009-3850.2022.04003
DownLoad: