Mineral Characteristics and Formation Environment of Glauconite in Upper Archean of Liujiang Basin, Qinhuangdao, Hebei Province:A Case Study of Changlongshan Formation in Jiguanshan
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摘要: 在河北秦皇岛柳江盆地鸡冠山新元古界青白口系长龙山组石英砂岩中发现有海绿石。对海绿石宏观特征分析表明, 砂岩中海绿石的含量随着颗粒直径的减小而增大, 含量大多为5%~20%。综合野外露头勘验、岩石薄片显微镜下观察和样品扫描电镜观察, 对海绿石微观特征分析表明, 长龙山组大多为晕边状和颗粒状, 也可见其他形态, 分析认为该区海绿石属于低成熟-成熟的层内准原地型海绿石。柳江盆地鸡冠山海绿石处于弱还原条件, 其形成环境为弱水动力浅海环境, 且沉积物补给慢, 沉积速率缓慢, 与现代海绿石沉积环境较为相似。本区海绿石的发现及研究, 对于进一步研究该区层序地层特征、地层格架及区域地层对比具有重要意义。Abstract: Glauconite is found in the quartz sandstone of Upper Archean Qingkoubai Changlongshan Formation in Jiguanshan, Liujiang Basin, Qinhuangdao, Hebei Province. The analysis of the macroscopic characteristics of glauconite showed that the glauconite content in sandstone increases with the decrease in particle diameter, and the content is mostly 5%~20%. Based on field outcrop surveys, rock section microscopy observations, and sample scanning electron microscopy observations, the microscopic characteristics of glauconite in Changlongshan was determined to be mostly halo-edged and granular, although other forms were also observed. It is considered that the glauconite in this area belongs to low-mature quasi autochthographical glauconite in layers. The glauconite in Jiguanshan of Liujiang Basin is characterized by weak reduction, and its formation environment is a shallow water environment with weak hydrodynamic force, and its sediment supply and sedimentation are slow, which is similar to the modern glauconite sedimentary environment. The discovery and study of glauconite in this area is of great significance for further study of sequence stratigraphic characteristics, stratigraphic framework, and regional stratigraphic correlation.
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Key words:
- glauconite /
- Jiguanshan /
- Changlongshan Formation /
- sedimentary environment
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常全明. 1992. 秦皇岛石门寨地区海绿石赋存特点及沉积环境研究[J]. 唐山工程技术学院学报, 14(2): 54-58.
陈瑞君. 1983. 南海北部湾海绿石的研究[J]. 地质科学, 26(3):267-272.
陈淑慧, 李云, 胡作维, 李小平, 马永坤, 朱平, 陈安清. 2014.海绿石的成因、指相作用及其年龄意义[J]. 岩石矿物学杂志, 33(5): 971-979.
大森昌卫, 茂木昭夫, 星野通平.1980. 浅海地质学[M]. 北京:科学出版社.
黄杏珍. 1982. 我国现代海绿石的特征和沉积环境及其与古代海绿石的比较[J]. 中国科学(B辑), 33(11): 1027-1040.
李东明, 孙镇城, 彭立才, 王敏, 王爱雷. 1996. 对“指相矿物”海绿石的重新认识[J]. 岩石矿物学杂志, 15(4): 379-384, 315.
李响, 蔡元峰, 胡修棉, 黄志诚, 王建刚, 耿建华. 2011. 藏西南札达白垩纪 Albian期海绿石的矿物学特征及地质意义[J].地质论评, 57(1): 63-72.
李晓波, 偶奇, 王旖旎, 王晗, 杨明, 张梅生. 2020. 辽宁兴城地区前寒武纪地层序列和不整合--兼讨论燕山裂陷槽东南部的沉积古地理演化[J]. 沉积学报, 38(4): 687-711.
李增学, 李晓静, 王东东, 刘莹, 陈晓燕, 吕大炜, 张增奇, 梁吉坡, 刘海燕, 王平丽. 2016. 华北中南部地区石盒子群沉积环境研究新进展[J]. 地球学报, 37(5): 615-625.
林建平, 赵国春, 程捷, 曹秀华, 赵靖.2005. 北戴河地质认识实习指导书[M]. 北京: 地质出版社.
刘振锋, 郑桂森. 1994. 燕山地区蓟县纪-青白口纪层序地层学初探[J]. 北京地质, 6(3): 10-15.
曲高生. 1983. 海绿石的成因(续)[J]. 海洋地质译丛, 3(4): 71-79.
邵先杰, 褚庆忠, 马平华.2017. 秦皇岛地质实习指导书[M]. 北京: 石油工业出版社.
汤冬杰, 史晓颖, 马坚白, 史青. 2016. 中元古代海绿石: 前寒武纪海洋浅化变层深度的潜在指示矿物[J]. 地学前缘, 23(6): 219-235.
王俊涛, 张永生, 宋天锐. 2011. 内蒙古西乌珠穆沁旗阿木山组海绿石的特征及其沉积环境[J]. 岩石矿物学杂志, 30(2):259-266.
王立峰, 李文宣, 罗均林, 胡华斌. 2000. 河北省怀来新元古代长龙山组沉积相研究[J]. 世界地质, 19(2): 138-143.
王兴. 2018. 滨浅海砂岩储集层沉积单元成因及演化规律研究[D]. 秦皇岛: 燕山大学.
谢启红, 邵先杰. 2016. 逆断层伴生裂缝发育特征及成因分析--以秦皇岛鸡冠山为例[J]. 科学技术与工程, 16(10):117-121.
张琴, 梅啸寒, 谢寅符, 王权鑫, 李晨溪, 阳孝法, 杜会尧, 禄佳景. 2016. 不同类型海绿石的发育特征及分类体系探讨[J].石油与天然气地质, 37(6): 952-963.
张琴, 王柏寒, 周琛, 孙祖宇, 梅啸寒, 原成帅, 王凯. 2020. 北京十三陵地区青白口系长龙山组含铁建造的发育特征及成因[J]. 古地理学报, 22(3): 570-586.
张田, 王辰昊. 2017. 海绿石成因类型及其对沉积环境的指相分析[J]. 科技创新导报, 14(17): 84-86, 89.
张洲, 周敏. 2008. 河流沉积层理的水动力分析[J]. 科技情报开发与经济, 18(10): 136-137.
朱福明, 朱明善. 1985. 现代沉积中海绿石的分选方法及其成因问题[J]. 矿物学报, 5(1): 80-84.
朱政源, 董凌峰, 于航, 孙容艳. 2015. 海绿石的成因与应用[J].科技创新与应用, 5(33): 16-18.
AMOROSI A. 1995. Glaucony and sequence stratigraphy: A conceptual framework of distribution in siliciclastic sequences[J].Journal of Sedimentary Research, 65(4b): 419-425.
BANERJEE S, CHATTORAJ S L, SARASWATI P K, DASGUPTA S, SARKAR U, BUMBY A. 2012. The origin and maturation of lagoonal glauconites: a case study from the Oligocene Maniyara Fort Formation, western Kutch, India[J]. Geological Journal, 47(4): 357-371.
BANERJEE S, BANSAL U, PANDE K, MEENA S S. 2016. Compositional variability of glauconites within the Upper Cretaceous Karai Shale Formation, Cauvery Basin, India: Implications for evaluation of stratigraphic condensation[J]. Sedimentary Geology, 331: 12-29.
CHANG Quan-ming. 1992. Research on the concentration features and the sedimental context of glauconite in Shimenzhai area, Qinhuangdao[J]. Journal of Tangshan Institute of Technology, 14(2): 54-58(in Chinese with English abstract).
CHEN Rui-jun. 1983. Study of glauconites from Beibu Bay of the South China Sea[J]. Chinese Journal of Geology, 26(3):267-272(in Chinese with English abstract).
CHEN Shu-hui, LI Yun, HU Zuo-wei, LI Xiao-ping, MA Yong-kun, ZHU Ping, CHEN An-qing. 2014. Genesis, diagnostic role and age significance of glauconites[J]. Acta Petrologica et Mineralogica, 33(5): 971-979(in Chinese with English abstract).
FISCHER H. 1990. Glauconite formation: discussion of the terms authigenic, perigenic, allogenic and meta-allogenic[J]. Eclogae Geologicae Helvetiae, 83(1): 1-6.
HARRIS L C, WHITING B M. 2000. Sequence-stratigraphic significance of Miocene to Pliocene glauconite-rich layers, on-and offshore of the US Mid-Atlantic margin[J]. Sedimentary Geology, 134(1-2): 129-147.
HUANG Xing-zhen. 1982. Characteristics and sedimentary environment of modern Glauconite in China and its comparison with ancient glauconite[J]. Science in China Series B, 33(11):1027-1040(in Chinese).
HUGGETT J M, GALE A S. 1997. Petrology and palaeoenvironmental significance of glacony in the Eocene succession at Whitecliff Bay, Hampshire Basin, UK[J]. Journal of the Geological Society, 154(5): 897-912.
LI Dong-ming, SUN Zhen-cheng, PENG Li-cai, WANG Min, WANG Ai-lei. 1996. Reconsideration for "face mineral" glauconite[J]. Acta Petrrologica et Mineralogica, 15(4): 379-384, 315(in Chinese with English abstract).
LI Xiang, CAI Yuan-feng, HU Xiu-mian, HUANG Zhi-cheng, WANG Jian-gang, GENG Jian-hua. 2011. The mineralogical characteristics of Cretaceous Albian glauconite in Zanda, southwestern Xizang of China and its geological implications[J]. Geological Review, 57(1): 63-72(in Chinese with English abstract).
LI Xiao-bo, OU Qi, WANG Yi-lini, WANG Han, YANG Ming, ZHANG Mei-sheng. 2020. The Precambrian stratigraphic sequence and unconformity unconformities in Xingcheng area, of Liaoning Province, China, with discussion of the sedimentary-paleogeographic evolution of the southeastern of Yanshan taphrogenic trough Basin[J]. Acta Sedimentologica Sinica, 38(4): 687-711(in Chinese with English abstract).
LI Zeng-xue, LI Xiao-jing, WANG Dong-dong, LIU Ying, CHEN Xiao-yan, LÜ Da-wei, ZHANG Zeng-qi, LIANG Ji-po, LIU Hai-yan, Wang Ping-li. 2016. New progress in the study of sedimentary environment of Shihezi group in central and southern region of North China[J]. Acta Geoscientica Sinica, 37(5): 615-625(in Chinese with English abstract).
LIU Zhen-feng, ZHENG Gui-sen. 1994. The preliminary research on the sequence stratigraphy of Jixian-Qingbaikou periods in Yanshan area[J]. Beijing Geology, 6(3): 10-15(in Chinese with English abstract).
LIN Jian-ping, ZHAO Guo-chun, CHENG Jie, CAO Xiu-hua, ZHAO Jing.2005. Beidaihe geological cognition practice guide[M]. Beijing: Geological Publishing House(in Chinese).
ODIN G S, FULLAGAR P D. 1988. Geological significance of the glaucony facies[J]. Developments in Sedimentology, 45:295-332.
ODIN G S, MATTER A. 1981. De glauconarium origine[J]. Sedimentology, 28(5): 611-641.
QU Gao-sheng. 1983. Genesis of glauconite (Continued)[J]. Marine Geology Translation Cluster, 3(4): 71-79(in Chinese).
SHAO Xian-jie, CHU Qing-zhong, MA Ping-hua.2017. Qinhuangdao Geological Practice Guide[M]. Beijing: Petroleum Industry Press(in Chinese).
TAKAMORI Chang-wei.Masahide Omori Akio Motegi, Tohei Hoshino. 1980. Shallow water geology[M]. Beijing: Science Press(in Chinese).
TANG Dong-jie, SHI Xiao-ying, MA Jian-bai, SHI Qing. 2016.Mesoproterozoic glaucony as a potential mineral proxy for shallow chemocline in the Precambrian ocean[J]. Earth Science Frontiers, 23(6): 219-235(in Chinese with English abstract).
WANG Jun-tao, ZHANG Yong-sheng, SONG Tian-rui. 2011.Characteristics and sedimentary environment of authigenic glauconite from limestone of the Amushan Formation in Xi Ujimqin Banner, Inner Mongolia[J]. Acta Petrologica et Mineralogica, 30(2): 259-266(in Chinese with English abstract).
WANG Li-feng, LI Wen-xuan, LUO Jun-lin, HU Hua-bin. 2000.The study on sedimentary facies of Changlongshan formation of Neoproterozoic era in Huailai, Hebei[J]. World Geology, 19(2): 138-143(in Chinese with English abstract).
WANG Xing. 2018. Study on the origin and evolution of sedimentation unit in shallow sand rock reservoir[D]. Qinhuangdao:Yanshan University(in Chinese with English abstract).
XIE Qi-hong, SHAO Xian-jie. 2016. Accompanying fracture characteristics and formation mechanism of the reverse fault: Taking Qinhuangdao Jiguan mountain as an example[J]. Science Technology and Engineering, 16(10): 117-121(in Chinese with English abstract).
ZHANG Qin, MEI Xiao-han, XIE Yin-fu, WANG Quan-xin, LI Chen-xi, YANG Xiao-fa, DU Hui-yao, LU Jia-jing. 2016.Characteristics of different types of glauconite and their classification systems[J]. Oil & Gas Geology, 37(6): 952-963(in Chinese with English abstract).
ZHANG Qin, WANG Bo-han, ZHOU Chen, SUN Zu-yu, MEI Xiao-han, YUAN Cheng-shuai, WANG Kai. 2020. Characteristics and genesis of iron formation in the Changlongshan Formation of Qingbaikou System in the Ming Tombs area, Beijing[J]. Journal of Palaeogeography, 22(3): 570-586(in Chinese with English abstract).
ZHANG Tian, WANG Chen-hao. 2017. The genetic types of glauconite and the relationship analysis of facies and sedimentary environment[J]. Science and Technology Innovation Herald, 14(17): 84-86, 89(in Chinese with English abstract).
ZHANG Zhou, ZHOU Min. 2008. Hydrodynamic analysis on fluvial sedimentary structure[J]. Sci-Tech Information Development and Economy, 18(10): 136-137(in Chinese with English abstract).
ZHU Fu-ming, ZHU Ming-shan. 1985. The separation of glauconite in modern sediments and the problem of its gensis[J]. Acta Mineralogica Sinica, 5(1): 80-84(in Chinese with English abstract).
ZHU Zheng-yuan, DONG Ling-feng, YU Hang, SUN Rong-yan.2015. Causes and application of glauconite [J]. Scientific and Technological Innovation and Application, 5(33): 16-18(in Chinese).
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