中国北方侏罗系烧变岩露头区白色砂岩特征与成因分析<sup>&#x0002A;</sup>

doi:10.7605/gdlxb.2024.06.093

古地理学报 ›› 2024, Vol. 26 ›› Issue (6): 1325-1337. doi: 10.7605/gdlxb.2024.06.093

• 岩相古地理学及沉积学 • 上一篇下一篇

中国北方侏罗系烧变岩露头区白色砂岩特征与成因分析^*

董燕¹, 王美玲², 陈彬³, 时志强¹

1 成都理工大学沉积地质研究院,四川成都 610059;
2 中国石化胜利油田孤岛采油厂,山东东营 257000;
3 聊城大学地理与环境学院,山东聊城 252000

收稿日期:2023-11-07 修回日期:2024-05-29 出版日期:2024-12-01 发布日期:2024-11-25
通讯作者: 时志强,男,1972年生,成都理工大学教授,主要从事沉积学相关研究工作。E-mail: szqcdut@163.com。
作者简介:董燕,女,1998年生,成都理工大学博士研究生,地质学专业。E-mail: 2104165595@qq.com。
基金资助:
*国家自然科学基金(编号: 42201006)资助

Characteristic and formation cause of white sandstones in the Jurassic outcrop area of burnt rocks in northern China

DONG Yan¹, WANG Meiling², CHEN Bin³, SHI Zhiqiang¹

1 Institute of Sedimentary Geology,Chengdu University of Technology,Chengdu 610059,China;
2 Gudao Oil Production Plant, Shengli Oilfield Company of Sinopec, Shandong Dongying 257000, China;
3 School of Geography and Environment,Liaocheng University,Shandong Liaocheng 252000,China

Received:2023-11-07 Revised:2024-05-29 Online:2024-12-01 Published:2024-11-25
Contact: SHI Zhiqiang,born in 1972,is a professor in Chengdu University of Technology. He is mainly engaged in sedimentology. E-mail: szqcdut@163.com.
About author:About the first author DONG Yan,born in 1998,is a doctor degree candidate. She is mainly engaged in geology. E-mail: 2104165595@qq.com.
Supported by:
Financially supported by the National Natural Science Foundation of China(No.42201006)

摘要/Abstract

摘要： 中国北方烧变岩广泛发育,常见侏罗系煤层于中生代、新生代自燃形成的烧变岩。在烧变岩露头区,白色砂岩常与红色烘烤岩伴生,但国内外对其关注不够,成因不明。本次研究对伊犁、准噶尔、吐哈、鄂尔多斯等盆地周缘烧变岩区野外露头进行了观察,采集白色砂岩样品进行薄片鉴定、扫描电镜及能谱等测试与分析,对白色砂岩岩石学、矿物学特征进行观察和描述,认为中国北方侏罗系白色砂岩常分布在烧变岩的上覆、下伏或侧边位置,颜色多以灰白为主,结构疏松,孔隙发育,碎屑颗粒以石英、长石矿物为主,填隙物主要为高岭石,发育特殊的流体流动所致的孔洞构造; 据其与烧变岩的空间相关性,推测白色砂岩的形成与煤层自燃有密切联系,煤层自燃导致高岭石大量生成、有色金属矿物或金属离子含量变化,这是砂岩呈现白色的主要诱因,因此烧变岩区所见白色砂岩为特殊类型的低温烘烤岩,其形成模式有3种: 河谷下切型、裂隙下切型和山丘下渗型。

关键词: 烧变岩, 白色砂岩, 沉积盆地, 侏罗系煤层, 中国北方

Abstract: Burnt rocks are widely distributed across northern China,often formed by the spontaneous combustion of Jurassic coal beds during the Mesozoic and Cenozoic. White sandstones are commonly accompanied with the red burnt rocks caused by the spontaneous combustion of Jurassic coals in these areas. These white sandstones have received little attention,and their formation remains poorly understood. In this study,the white sandstones accompanied with burnt rocks are observed at the Jurassic outcrops in the margins of Yili,Junggar,Tuha and Ordos Basins. White sandstone samples were collected and analyzed through thin section identification,scanning electron microscopy(SEM),and energy spectrum analysis to examine their petrological and mineralogical characteristics. The results show that the white sandstones in the Jurassic coal-bearing sequence are distributed at the top,bottom or alongside of burnt rocks,with light-grey white color,loose structure,and well-developed porosity. The clastic grains are mainly quartz and feldspar minerals,and the interstitial material is mainly kaolinite. Unique pore structures caused by fluid movement are also observed. According to the spatial correlation with burnt rocks,we propose that the cause of these white sandstones is closely related to the spontaneous combustion of Jurassic coals. The massive production of kaolinite,removement of nonferrous metals and vanishment of organic matter are likely caused by coal combustion process,which result in the formation of white sandstones. Thus,these white sandstones represent a special type of low-temperature baked rock. Three genetic models are proposed for the formation of these white sandstones: (A)valley incision type,(B)fissure incision type and(C)hill infiltration type.

Key words: burnt rock, white sandstone, sedimentary basin, Jurassic coal, northern China

中图分类号:

P581

董燕, 王美玲, 陈彬, 时志强. 中国北方侏罗系烧变岩露头区白色砂岩特征与成因分析^*[J]. 古地理学报, 2024, 26(6): 1325-1337.

DONG Yan, WANG Meiling, CHEN Bin, SHI Zhiqiang. Characteristic and formation cause of white sandstones in the Jurassic outcrop area of burnt rocks in northern China[J]. JOPC, 2024, 26(6): 1325-1337.

http://www.gdlxb.cn/CN/Y2024/V26/I6/1325

参考文献

[1] 陈彬. 2021. 中国西北地区侏罗系中烧变岩的特征、形成时代及地质意义. 成都理工大学博士学位论文.
[Chen B.2021. Characteristics,ages and geological significance of the Jurassic combustion metamorphic rocks in northwestern China. Doctoral dissertation of Chengdu University of Technology]
[2] 陈发景,汪新文,汪新伟. 2005. 准噶尔盆地的原型和构造演化. 地学前缘, 12(3): 77-89.
[Chen F J,Wang X W,Wang X W.2005. Prototype and tectonic evolution of the Junggar Basin,northwestern China. Earth Science Frontiers, 12(3): 77-89]
[3] 迟恩先,兰波,肖延卿. 2014. 溶液温度及CO₂含量对长石溶解度的影响. 水资源与水工程学报, 25(2): 230-232.
[Chi E X,Lan B,Xiao Y Q.2014. Impact of temperature and CO₂ in solution on feldspar solubility. Journal of Water Resources and Water Engineering, 25(2): 230-232]
[4] 丁波,刘红旭,杨胜富,杨龙,任志勇,李平,张宾. 2019. 鄂尔多斯盆地东北部延安组白色砂岩中高岭石成因探讨. 地质论评,65(s1): 51-52.
[Ding B,Liu H X,Yang S F,Yang L,Ren Z Y,Li P,Zhang B.2019. Discussion on the genesis of kaolinite in white sandstone of Yan'an Formation in the northeast of Ordos Basin. Geological Review,65(s1): 51-52]
[5] 韩德馨,孙俊民. 1998. 中国煤的燃烧变质作用与煤层自燃特征. 中国煤田地质, 10(4): 15-16,56.
[Han D X,Sun J M.1998. Combustion metamorphism and selfignition characteristics of coal beds in China. Coal Geology of China, 10(4): 15-16,56]
[6] 韩效忠,吴兆剑,司马献章,俞礽安,李建国,胡航,蒋喆. 2018. 二连盆地马尼特坳陷南北双向供源铀成矿模式探讨. 煤田地质与勘探, 46(6): 1-10.
[Han X Z,Wu Z J,Sima X Z,Yu R G,Li J G,Hu H,Jiang Z.2018. Metallogenic model of uranium with source supply from the south and the north in Manite depression of Erlian basin,Inner Mongolia. Coal Geology & Exploration, 46(6): 1-10]
[7] 何登发,张磊,吴松涛,李涤,甄宇. 2018. 准噶尔盆地构造演化阶段及其特征. 石油与天然气地质, 39(5): 845-861.
[He D F,Zhang L,Wu S T,Li D,Zheng Y.2018. Tectonic evolution stages and features of the Junggar Basin. Oil & Gas Geology, 39(5): 845-861]
[8] 黄以. 2002. 新疆伊犁盆地南缘层间氧化带及铀矿化特征. 新疆地质, 20(2): 141-145.
[Huang Y.2002. Uranium mineralization and character of uranium-bearing interlayer oxidization zones at the southern margin of Ili Basin. Xinjiang Geology, 20(2): 141-145]
[9] 季汉成,翁庆萍,杨潇. 2008. 鄂尔多斯盆地东部下二叠统山西组2段成岩相划分及展布. 古地理学报, 10(4): 409-418.
[Ji H C,Weng Q P,Yang X.2008. Division and distribution of diagenetic facies of the Member 2 of Lower Permian Shanxi Formation in eastern Ordos Basin. Journal of Palaeogeography(Chinese Edition), 10(4): 409-418]
[10] 焦养泉,吴立群,荣辉. 2018. 砂岩型铀矿的双重还原介质模型及其联合控矿机理: 兼论大营和钱家店铀矿床. 地球科学, 43(2): 459-474.
[Jiao Y Q,Wu L Q,Rong H.2018. Model of inner and outer reductive media within uranium reservoir sandstone of sandstone-type uranium deposits and its ore-controlling mechanism: case studies in Daying and Qianjiadian uranium deposits. Earth Science, 43(2): 459-474]
[11] 金若时,程银行,李建国,司马献章,苗培森,王少轶,奥琮,里宏亮,李艳锋,张天福. 2017. 中国北方晚中生代陆相盆地红—黑岩系耦合产出对砂岩型铀矿成矿环境的制约. 中国地质, 44(2): 205-223.
[Jin R S,Cheng Y H,Li J G,Sima X Z,Miao P Z,Wang S Y,Ao Z,Li H L,Li Y F,Zhang T F.2017. Late Mesozoic continental basin “Red and Black Beds” coupling formation constraints on the sandstone uranium mineralization in northern China. China Geology, 44(2): 205-223]
[12] 李凤杰,王多云,郑希民,刘自亮,王峰,王志坤,李树同. 2003. 测井曲线频谱分析在含煤地层沉积旋回研究中的应用. 煤田地质与勘探, 31(6): 14-18.
[Li F J,Wang D Y,Zheng X M,Liu Z L,Wang F,Wang Z K,Li S T.2003. The application of frequency spectral analysis of logging curves on sedimentary cycle studies in coal-bearing strata. Coal Geology & Exploration, 31(6): 14-18]
[13] 李美蓉,宋来弟,于海鹏,操应长,远光辉. 2021. 酸碱度对长石溶蚀及增孔效应的影响. 中国石油大学学报(自然科学版), 45(5): 33-41.
[Li M R,Song L D,Yu H P,Cao Y C,Yuan G H.2021. Influence of pH value on feldspar dissolution and pore-increasing effect. Journal of China University of Petroleum(Edition of Natural Science), 45(5): 33-41]
[14] 李新宁,梁辉,姚梦多,蒲振山,郑玉萍,张品,李宏伟,贾雪莉,王德润. 2015. 吐哈盆地沙尔湖凹陷侏罗系煤层气勘探新认识. 科学技术与工程, 15(16): 33-39.
[Li Xi N,Liang H,Yao M D,Pu Z S,Zheng Y P,Zhang P,Li H W,Jia X L,Wang D R.2015. A new understanding of exploration of coalbed methane in Sha'erhu sag. Science Technology and Engineering, 15(16): 33-39]
[15] 梁冰,郑训臻,金佳旭. 2012. 温度及硫酸盐溶液对长石溶解度影响的数值模拟. 广西大学学报(自然科学版), 37(5): 1008-1012.
[Liang B,Zheng X Z,Jin J X.2012. Numerical simulation of the influence of temperature and sulfate solution on the solubility of feldspar. Journal of Guangxi University(Earth & Science Edition), 37(5): 1008-1012]
[16] 刘池洋,赵红格,桂小军,岳乐平,赵俊峰,王剑强. 2006. 鄂尔多斯盆地演化—改造的时空坐标及其成藏(矿)响应. 地质学报, 80(5): 617-638.
[Liu C Y,Zhao H G,Gui X J,Yue L P,Zhao J F,Wang J Q.2006. Space-time coordinate of the evolution and reformation and mineralization response in Ordos Basin. Acta Geologica Sinica, 80(5): 617-638]
[17] 刘红旭,丁波,刘章月,张晓,潘澄雨. 2017. 伊犁盆地蒙其古尔铀矿床含矿目的层强高岭石化成因. 矿物学报,37(Z1): 40-48.
[Liu H X,Ding B,Liu Z Y,Zhang X,Pan C Y.2017. Genesis of strong kaolinization in ore-bearing sandstone from Mengqiguer uranium deposit,Yili Basin,China. Acta Mineralogica Sinica,37(Z1): 40-48]
[18] 刘子威. 2013. 鄂尔多斯盆地榆林北部地区山2段储层成岩作用研究. 成都理工大学硕士学位论文: 57.
[Liu Z W.2013. Research on diagenesis of Shan 2 sandstone reservoir in northern Yulin area in Ordos Basin. Masteral dissertation of Chengdu University of Technology: 57]
[19] 鲁静,邵龙义,杨敏芳,李永红,张正飞,王帅,云启成. 2014. 陆相盆地沼泽体系煤相演化、层序地层与古环境. 煤炭学报, 39(12): 2473-2481.
[Lu J,Shao L Y,Yang M F,Li Y H,Zhang Z F,Wang S,Yun Q C.2014. Coal facies evolution sequence stratigraphy and palaeoenvironment of swamp in terrestrial basin. Journal of China Coal Society, 39(12): 2473-2481]
[20] 马艳萍,刘池洋,王建强,赵俊峰,房建军,桂小军,喻林. 2006. 盆地后期改造中油气运散的效应: 鄂尔多斯盆地东北部中生界漂白砂岩的形成. 石油与天然气地质, 27(2): 233-238.
[Ma Y P,Liu C Y,Wang J Q,Zhao J F,Fang J J,Gui X J,Yu L.2006. Effects of hydrocarbon migration and dissipation in later reformation of a basin: formation of Mesozoic bleached sandstone in northeastern Ordos basin. Oil & Gas Geology, 27(2): 233-238]
[21] 马艳萍,刘池洋,张复新,赵俊峰,喻林,黄雷. 2007a. 鄂尔多斯盆地东胜砂岩型高岭土矿特征及成因机制. 吉林大学学报(地球科学版), 37(5): 929-936.
[Ma Y P,Liu C Y,Zhang F X,Zhao J F,Yu L,Huang L.2007a. Genesis and characteristics of the Dongsheng Kaolin deposits in Ordos Basin. Journal of Jilin University(Earth & Science Edition), 37(5): 929-936]
[22] 马艳萍,刘池洋,赵俊峰,黄雷,喻林,桂小军,房建军,王建强. 2007b. 鄂尔多斯盆地东北部砂岩漂白现象与天然气逸散的关系. 中国科学(D辑: 地球科学), 37(S1): 127-138.
[Ma Y P,Liu C Y,Zhao J F,Huang L,Yu L,Gui X J,Fang J J,Wang J Q.2007b. Relationship between sandstone bleaching and natural gas fugitive in northeast Ordos Basin. Science in China(Series D: Earth Sciences). 37(S1): 127-138]
[23] 苗培森,李建国,汤超,金若时,程银行,赵龙,肖鹏,魏佳林. 2017. 中国北方中新生代盆地深部砂岩铀矿成矿条件与找矿方向. 地质通报,36(10): 1830-1840.
[Miao P S,Li J G,Tang C,Jin R S,Cheng Y H,Xiao P,Wei J L.2017. Metallogenic condition and prospecting orientation for deep sandstone-hosted uranium deposits in Mesozoic-Cenozoic basins of North China. Geological Bulletin of China, 36(10): 1830-1840]
[24] 曲希玉,刘立,马瑞,胡大千,陈雪,王彦明. 2008. CO₂流体对岩屑长石砂岩改造作用的实验. 吉林大学学报(地球科学版), 38(6): 959-964.
[Qu X Y,Liu L,Ma R,Hu D Q,Chen X,Wang Y M.2008. Experiment on debris-arkosic sandstone reformation by CO₂ fluid. Journal of Jilin University(Earth & Science Edition), 38(6): 959-964]
[25] 权志高,张甲民,傅成铭,姬海军,张发. 2011. 新疆吐哈盆地铀成矿远景区构造式样与铀成矿潜力评价. 地质论评, 57(5): 749-753.
[Quan Z G,Zhang J M,Fu C M,Ji H J,Zhang F.2011. Structural styles and an evaluation for uranium ore-forming potentials in the uranium prospective areas in Turpan-Hami Basin,Xinjiang. Geological Review, 57(5): 749-753]
[26] 时志强,赵冠军,胡宗全. 2000. 天山南缘中小型沉积盆地侏罗系储层成岩作用分析. 成都理工学院学报,29(S1): 139-142.
[Shi Z Q,Zhao G J,Hu Z Q.2000. Diagenetic analysis of Jurassic reservoir in medium-small sized sedimentary basins on south edge of Tianshan mountains. Journal of Chengdu University of Technology,29(S1): 139-142]
[27] 时志强,杨小康,王艳艳,杜怡星,肖凯,段雄. 2016. 含煤盆地表生热液铀成矿理论及证据: 以伊犁盆地南缘及鄂尔多斯盆地东北部侏罗系为例. 成都理工大学学报(自然科学版), 43(6): 703-718.
[Shi Z Q,Yang X K,Wang Y Y,Du Y X,Xiao K,Duan X.2016. Theory of uranium mineralization caused by supergene hydrothermal fluid in coal-bearing basins: evidences from Jurassic sandstone in southern Yili Basin and northeastern Ordos Basin China. Journal of Chengdu University of Technology(Science & Technology Edition), 43(6): 703-718]
[28] 时志强,王美玲,陈彬. 2021. 中国北方烧变岩的分布、特征及研究意义. 古地理学报, 23(6): 1067-1081.
[Shi Z Q,Wang M L,Chen B.2021. Distribution characteristics and significances of burnt rocks in northern China. Journal of Palaeogeography(Chinese Edition), 23(6): 1067-1081]
[29] 宋土顺,刘立,王玉洁,刘娜,于淼. 2014. 鄂尔多斯盆地漂白砒砂岩特征及成因. 石油与天然气地质, 35(5): 679-684.
[Song T S,Liu L,Wang Y J,Liu N,Yu M.2014. Characteristics and genesis of the bleached Pisha sandstone in Ordos Basin. Oil & Gas Geology, 35(5): 679-684]
[30] 孙翠芝,叶大武. 2012. 中国原煤及商品煤硫分分布概况. 煤质技术, 27(2): 5-9.
[Sun C Z,Ye D W.2012. Overview of sulfur content distribution in raw coal and commercial coal in China. Coal Technology, 27(2): 5-9]
[31] 孙海涛,钟大康,张湘宁,柳慧林. 2011. 鄂尔多斯盆地长北气田山西组二段低孔低渗储层特征及形成机理. 沉积学报, 29(4): 724-733.
[Sun H T,Zhong D K,Zhang X N,Liu H L.2011. Characteristics and mechanism of Permian Shanxi tight reservoir of Changbei gas field in Ordos Basin. Acta Sedimentologica Sinica, 29(4): 724-733]
[32] 孙建博,陈刚,章辉若,白国绢,李向东,李向平. 2006. 鄂尔多斯盆地中新生代构造事件的峰值年龄及其沉积响应. 西北地质, 39(3): 91-96.
[Sun B J,Chen G,Zhang H R,Bai G J,Li X D,Li X P.2006. Peak ages and sedimentary responses of the Mesozoic-Cenozoic tectonic events in Ordos Basin. Northwestern Geology, 39(3): 91-96]
[33] 王庆全. 1982. 大同侏罗系煤层古火区地质特征. 煤田地质与勘探,(6): 25-30.
[Wang Q Q.1982. Geological characteristics of the palaeo coal-fire area of the Datong Jurassic coal seam. Coal Geology & Exploration,(6): 25-30]
[34] 魏新善,肖红平,刘锐娥,南珺祥,郝爱胜. 2017. 热异常酸洗作用与鄂尔多斯盆地上古生界长石消失事件. 地质学报, 91(9): 2139-2149.
[Wei X S,Xiao H P,Liu R E,Nan J X,Hao A S.2017. Pickling effect of the abnormal heat and its relation to disappearance of feldspar of the Upper Paleozoic in the Ordos Basin. Acta Geologica Sinica, 91(9): 2139-2149]
[35] 吴柏林. 2005. 中国西北地区中新生代盆地砂岩型铀矿地质与成矿作用. 西北大学博士学位论文.
[Wu B L.2005. Sandstone-type uranium ore geology and mineralization in the Mesozoic basin of Northwest China. Doctoral dissertation of Northwest University]
[36] 吴柏林,魏安军,刘池洋,宋子升,胡亮,王丹,寸小妮,孙莉,罗晶晶. 2015. 鄂尔多斯盆地北部延安组白色砂岩形成的稳定同位素示踪及其地质意义. 地学前缘, 22(3): 205-214.
[Wu B L,Wei A J,Liu C Y,Song Z S,Hu L,Wang D,Cun X N,Sun L,Luo J J.2015. Stable isotope tracing on the formation of white sandstone in Yan an Group,northern Ordos Basin,and its geological significance. Earth Science Frontiers, 22(3): 205-214]
[37] 吴仁贵,祝民强,余达淦,陈安平. 2002. 沉积体系分析与底河道型砂岩铀矿成矿条件讨论: 以鄂尔多斯中生代盆地北部东胜地区为例. 矿床地质,21(S1): 878-880.
[Wu R G,Zhu M Q,Yu D G,Chen A P.2002. Analyses of depositional system and studies on metallogenic condition of basal-channel sandstone Uranium Deposit. Geology of Ore Deposits,21(S1): 878-880]
[38] 吴亚平. 2014. 准噶尔盆地南缘硫磺沟地区砂岩铀矿化特征研究. 中国地质大学(北京)硕士毕业论文.
[Wu Y P.2014. The uranium mineralization characteristics research of the Liuhuanggou area in the southern margin of Junggar Basin. Masteral dissertation of China University of Geosciences(Beijing)]
[39] 吴兆剑,韩效忠,林中湘,李紫楠,季辉,殷栋法,蒋喆,胡航. 2020. 中国北方主要中新生代盆地构造沉积气候演化及其成煤、铀意义. 大地构造与成矿学, 44(4): 710-724.
[Wu Z J,Han X Z,Lin Z X,Li Z N,Ji H,Yin D F,Jiang Z,Hu H.2020. Tectonic,sedimentary,and climate evolution of Meso-Cenozoic basins in North China and its significance of coal accumulation and uranium mineralization. Geotectonica et Metallogenia, 44(4): 710-724]
[40] 武文慧,黄思静,陈洪德,李智武,赵俊兴. 2011. 鄂尔多斯盆地上古生界碎屑岩硅质胶结物形成机制及其对储集层的影响. 古地理学报, 13(2): 193-200.
[Wu W H,Huang S J,Chen H D,Li Z W,Zhao J X.2011. Origin of siliceous cement in the Upper Paleozoic clastic rocks in Ordos Basin and its effects on reservoir quality. Journal of Palaeogeography(Chinese Edition), 13(2): 193-200]
[41] 许喆. 2018. 长石成岩过程中的热力学分析: 以鄂尔多斯盆地上古生界为例. 长江大学硕士学位论文: 69.
[Xu Z.2018. Thermodynamic analysis of feldspar diagenesis in the Upper Paleozoic reservoir in Ordos Basin. Masteral dissertation of Yangtze University: 69]
[42] 闫晶晶,贾为卫,黄松. 2022. 准噶尔盆地南缘硫磺沟地区中—新生代构造演化与侏罗系铀成矿的关系. 铀矿地质, 38(6): 1022-1031.
[Yan J J,Jia W W,Huang S.2022. Relationship between Mesozoic-Cenozoic structural evolution and Jurassic uranium mineralization in Liuhuanggou area,southern margin of Junggar Basin. Uranium Geology, 38(6): 1022-1031]
[43] 杨华,刘新社,闫小雄. 2015. 鄂尔多斯盆地晚古生代以来构造-沉积演化与致密砂岩气成藏. 地学前缘, 22(3): 174-183.
[Yang H,Liu X S,Yan X X.2015. The relationship between tectonic-sedimentary evolution and tight sandstone gas reservoir since the late Paleozoic in Ordos Basin. Earth Science Frontiers, 22(3): 174-183]
[44] 张龙,刘池洋,雷开宇,孙莉,寸小妮,杜芳鹏,邓辉. 2017. 鄂尔多斯盆地东北部侏罗系延安组漂白砂岩成因和古风化壳形成环境探讨. 地质学报, 91(6): 1345-1359.
[Zhang L,Liu C Y,Lei K Y,Sun L,Cun X N,Du F P,Deng H.2017. White bleached sandstone genesis and paleo-weathered crust forming environment of the Jurassic Yan'an Formation in the northeastern Ordos Basin. Acta Geologica Sinica, 91(6): 1345-1359]
[45] 张雪丽. 2016. 中国北方主要盆地地下咸水中CO₂溶解度研究. 中国地质大学(北京)硕士学位论文.
[Zhang X L.2016. Measurment and modeling of CO₂ solubility in formation brine in major basins in North China. Masteral dissertation of China University of Geosciences(Beijing)]
[46] 张永霖. 1983. 鄂尔多斯盆地东南缘早、中侏罗世延安组沉积环境与煤炭资源分布规律. 地质论评, 29(4): 358-364.
[Zhang Y L.1983. The sedimentary environment of early-middle Jurassic Yan'an Formation and distribution of coal resources in the southeastern border of Ordos Basin. Geological Review, 29(4): 358-364]
[47] Beitler B,Chan M A,Parry W T.2003. Bleaching of Jurassic Navajo Sandstone on Colorado Plateau Laramide highs: evidence of exhumed hydrocarbon supergiants? Geology(Boulder), 31(12): 1041-1044.
[48] Chan M A,Parry W T,Bowman J R.2000. Diagenetic hematite and manganese oxides and fault-related fluid flow in Jurassic sandstones,southeastern Utah. AAPG Bulletin,84(9): 1281-1310.
[49] Chen B,Wang Y Y,Franceschi Marco,Duan X,Li K Z,Yu Y,Wang M L,Shi Z Q.2020. Petrography,mineralogy,and geochemistry of combustion metamorphic rocks in the northeastern Ordos Basin,China: implications for the origin of “White Sandstone”. Minerals, 10(12): 1-22.
[50] Garden I R,Guscott S C,Burley S D,Foxford K A,Walsh J J,Marshall J.2001. An exhumed palaeo-hydrocarbon migration fairway in a faulted carrier system,Entrada Sandstone of SE Utah,USA. Geofluids, 1(3): 195-213.
[51] Gorenc M A,Chan M A.2015. Hydrocarbon-induced diagenetic alteration of the Permian White Rim Sandstone,Elaterite Basin,southeast Utah. AAPG Bulletin, 99(5): 807-829.
[52] Heffern E L,Coates D A.2004. Geologic history of natural coal-bed fires,Powder River basin,USA. International Journal of Coal Geology, 59(1): 25-47.
[53] Parry W T,Chan M A,Nash B P.2009. Diagenetic characteristics of the Jurassic Navajo Sandstone in the Covenant oil field,central Utah thrust belt. AAPG Bulletin, 93(8): 1039-1061.

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