Sedimentary Characteristics, Provenance Analysis and Tectonic Significance of the Late Cretaceous Abushan Formation in Tonamu Area, Northern Qiangtang
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摘要: 羌塘—拉萨碰撞造山作用是青藏高原中生代最为重要的构造事件, 羌塘盆地内晚白垩世阿布山组是羌塘—拉萨碰撞造山作用的沉积记录。托纳木地区发育了北羌塘坳陷少有的晚白垩世阿布山组沉积, 然而对其形成构造背景和动力学机制尚不清楚。本文通过对托纳木地区阿布山组沉积环境、物源区详细表明, 该地区阿布山组下部以冲积扇环境为主, 中上部为辫状河环境。砾石成分、古水流、砂岩岩石学、砂岩重矿物、碎屑锆石U-Pb定年等物源综合分析显示中央隆起带和盆地内部均为阿布山组提供物源, 结合邻区阿布山组对比, 认为研究区物源来自盆地内西南方向下伏沉积、晚三叠世那底冈日组火山岩以及盆地基底, 阿布山组沉积受盆地内构造控制。托纳木地区阿布山组物源区特征反映了北羌塘晚白垩世地体内部的逆冲事件, 与羌塘—拉萨地体碰撞有关。Abstract: The Qiangtang-Lhasa collisional orogeny is the most important Mesozoic tectonic event in the Tibetan Plateau. The Late Cretaceous Abushan Formation in the Qiangtang Basin serves as the sedimentary record of the Qiangtang-Lhasa collision orogeny. There is a rare Late Cretaceous Abushan Formation deposit in northern Qiangtang Depression in Tonamu area. However, the tectonic setting and dynamic mechanism of its formation remain unclear. In this paper, the sedimentary environment and provenance of Abushan Formation in Tonamu area are shown in detail. The comprehensive analysis of the provenance, including the composition of gravel, paleocurrences, sandstone petrology, heavy minerals of sandstone and U-Pb dating of detrital zircons, shows that the central uplift belt and the interior of the basin all provided the provenance of the Abushan Formation.Combined with the comparison of the Abushan Formation in the adjacent areas, it is considered that the provenance of the study area came from the underlying sediments in the southwest of the basin, the volcanic rocks of the Late Triassic Nadiganri Formation and the basement of the basin. Sediments of Abushan Formation are controlled by intra-basin structures. The provenance characteristics of the Abushan Formation in the Tonamu area reflect the thrust event in the Late Cretaceous terrane of the northern Qiangtang and were related to the collision of Qiangtang-Lhasa Terrane.
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Key words:
- Late Cretaceous /
- Qiangtang Basin /
- sedimentary /
- provenance /
- tectonic significance
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白志达, 徐德斌, 陈梦军, 孙立新. 2009. 西藏安多地区粗面岩的特征及其锆石 SHRIMP U-Pb定年[J]. 地质通报, 28(9):1229-1235.
曾庆高, 李祥辉, 夏斌, 徐文礼, 尼玛次仁, 普琼, 李君. 2009.西藏仁布地区上三叠统重矿物组合与物源分析[J]. 地质通报, 28(01): 38-44.
付修根, 王剑, 陈文彬, 冯兴雷. 2010. 羌塘盆地那底岗日组火山岩地层时代及构造背景[J]. 成都理工大学学报(自然科学版), 37(6): 605-615.
黄继钧. 2001. 羌塘盆地基底构造特征[J]. 地质学报, 75(3):333-337.
金纬. 2007. 青藏高原腹地晚白至-古近纪高原隆升的沉积响应与油气后期保存[D]. 成都: 成都理工大学.
李才, 翟庆国, 陈文, 董永胜, 于介江. 2007. 青藏高原龙木错-双湖板块缝合带闭合的年代学证据--来自果干加年山蛇绿岩与流纹岩 Ar-Ar和 SHRIMP年龄制约[J]. 岩石学报, 23(5): 911-918.
李学仁. 2019. 羌塘盆地那底岗日组火山-沉积岩石学特征及构造属性研究[D]. 北京: 中国地质大学(北京).
李亚林.2011. 羌塘盆地托纳木地区石油地质特征与资源潜力[M]. 北京: 地质出版社.
刘少峰, 张国伟. 2005. 盆山关系研究的基本思路、内容和方法[J]. 地学前缘, 12(03): 101-111.
潘桂棠, 王立全, 张万平, 王保弟.2013.青藏高原及邻区大地构造图及说明书[M]. 北京: 地质出版社: 207.
钱信禹. 2020. 北羌塘盆地与中央隆起带晚三叠世以来剥露历史的低温热年代学约束[D]. 北京: 中国地质大学.
王成善, 李祥辉.2003. 沉积盆地分析原理与方法[M]. 北京: 高等教育出版社.
王剑, 付修根, 陈文西, 谭富文, 汪正江, 卓皆文. 2008. 北羌塘沃若山地区火山岩年代学及区域地球化学对比--对晚三叠世火山-沉积事件的启示[J]. 中国科学: 地球科学, 38(1):35-45.
王立成, 魏玉帅. 2013. 西藏羌塘盆地白垩纪中期构造事件的磷灰石裂变径迹证据[J]. 岩石学报, 29(03): 1039-1047.
王志龙, 胡西冲, 石晓龙, 黄强太, 郑浩, 师胜梅. 2017. 西藏窝若巴勒-白龙地区阿布山组沉积岩石、地球化学特征及碎屑锆石对物源信息的指示意义[J]. 地质通报, 36(07):1188-1203.
吴瑞忠, 胡承祖, 王成善, 张懋功, 高德荣, 兰伯龙, 张哨楠, 陈德全, 王全海. 1986. 藏北羌塘地区地层系统[C]//青藏高原地质文集. 北京: 地质出版社..
吴珍汉, 高锐, 卢占武, 叶培盛, 陆露, 殷裁云. 2014. 羌塘盆地结构构造与油气勘探方向[J]. 地质学报, 88(6):1130-1144.
吴珍汉, 刘志伟, 赵珍, 季长军, 叶培盛. 2016. 羌塘盆地隆鄂尼-昂达尔错古油藏逆冲推覆构造隆升[J]. 地质学报, 90(4): 615-627.
吴珍汉, 宋洋, 赵珍. 2021. 北羌塘凹陷重力地震联合反演预测深部油藏[J]. 地球学报, 42(01): 1-8.
吴珍汉, 赵逊, 叶培盛, 吴中海, 胡道功, 周春景. 2007. 根据湖相沉积碳氧同位素估算青藏高原古海拔高度[J]. 地质学报, 81(9): 1277-1288.
西藏自治区地质矿产局.1993. 西藏自治区区域地质[M]. 北京:地质出版社: 195-224.
岳龙, 牟世勇, 曾昌兴, 易成兴. 2006. 藏北羌塘丁固-加措地区康托组的时代[J]. 地质通报, 25(1-2): 229-232.
赵珍, 吴珍汉, 杨易卓, 季长军. 2020. 羌塘中部陆相红层时代的U-Pb年龄约束[J]. 地质论评, 24(5): 249-263.
赵政璋, 李永铁, 叶和飞, 张景文.2000. 青藏高原大地构造特征及盆地演化[M]. 北京: 科学技术出版社: 208-220.
ALLMENDINGER R W, CARDOZO N, FISHER D M.2011.Structural geology algorithms: Vectors and tensors[M]. Cambridge: Cambridge University Press.
BAI Zhi-da, XU De-bin, CHEN Meng-jun, SUN Li-xin. 2009.Characteristics and zircon SHRIMP U-Pb dating of the Amdo trachyte, Tibet, China[J]. Geological Bulletin of China, 28(9):1229-1235(in Chinese with English abstract).
Bureau of Geology and Mineral Resources of Xizang Autonomous Region.1993. Regional Geology of Xizang autonomous region[M]. Beijing: Geological Publishing House: 195-224(in Chinese).
CARDOZO N, ALLMENDINGER R W. 2013. Spherical projections with OSXStereonet[J]. Computers& Geosciences, 51(1):193-205.
CHEN Sheng-sheng, FAN Wei-ming, SHI Ren-deng, GONG Xiao-han, WU Kang. 2017. Removal of deep lithosphere in ancient continental collisional orogens: A case study from central Tibet, China[J]. Geochemistry Geophysics Geosystems, 18(3): 1225-1243.
DICKINSON W R. 1985. Interpreting Provenance Relations from Detrital Modes of Sandstones[C]//Provenance of Arenites:333-361.
DONG Chun-yan, LI Cai, WAN Yu-sheng, WANG Wei, WU Yan-wang, XIE Hang-qiang, LIU Duin-yi. 2011. Detrital zircon age model of Ordovician Wenquan quartzite south of Lungmuco-Shuanghu Suture in the Qiangtang area, Tibet:Constraint on tectonic affinity and source regions[J]. Science China-Earth Sciences, 54(7): 1034-1042.
FAN Jian-jun, LI Cai, WANG Ming, XIE Chao-ming, XU Wei.2016. Features, provenance, and tectonic significance of Carboniferous-Permian glacial marine diamictites in the Southern Qiangtang-Baoshan block, Tibetan Plateau[J].Gondwana Research, 28(4): 1530-1542.
FU Xiu-gen, WANG Jian, CHEN Wen-bin, FENG Xing-lei. 2010.Age and tectonic implications of the Late Triassic Nadi Kangri volcanic rocks in the Qiangtang basin, northern Tibet, China[J]. Journal of Chengdu University of Technology (Science & Technology Edition), 37(6): 605-615(in Chinese with English abstract).
GEHRELS G, KAPP P, DECELLES P, PULLEN A, BLAKEY R, WEISLOGEL A, DING L, GUYN J, MARTIN A, MCQUARRIE N. 2011. Detrital zircon geochronology of pre-Tertiary strata in the Tibetan-Himalayan orogen[J]. Tectonics, 30(5): TC5016.
HE Hai-yang, LI Ya-lin, WANG Cheng-shan, ZHOU A, QIAN Xin-yu, ZHANG Jia-wei, DU Lin-tao, BI Wen-jun. 2018. Late Cretaceous (ca.95? Ma) magnesian andesites in the Biluoco area, southern Qiangtang subterrane, central Tibet: Petrogenetic and tectonic implications[J]. Lithos, 302-303: 389-404.
HUANG Ji-jun. 2001. Structural characteristics of the basement of the QiangtangBasin[J]. Acta Geologica Sinica, 75(3):333-337(in Chinese with English abstract).
INGERSOLL R V, BULLARD T F, FORD R L, PICKLE J D. 1985.The effect of grain size on detrital modes: a test of the Gazzi-Dickinson point-counting method-reply[J]. Journal of Sedimentary Research, 54(1): 103-116.
JIN Wei. 2007. Research on sedimentary response to uplifting of Tibetan plateau hinterland and oil-gas rese rvation during the Late Cretaceus-Paleogene period (Dissertation)[D]. Chengdu:Chengdu University of Technology(in Chinese with English abstract).
KAPP P, MURPHY M A, YIN A, HARRISON T M, DING L, GUO J. 2003. Mesozoic and Cenozoic tectonic evolution of the Shiquanhe area of western Tibet[J]. Tectonics, 22(4): 1029, doi: 10.1029/2001TC001332.
KAPP P, YIN An, HARRISON T M, DING L. 2005. Cretaceous-Tertiary shortening, basin development, and volcanism in central Tibet[J]. Geological Society of America Bulletin, 117(7): 865-878.
LI Cai, ZHAI Qing-guo, CHEN Wen, DONG Yong-sheng, YU Jie-jiang. 2007. Geochronology evidence of the closure of Longmu Co-Shuanghu suture, Qinghai-Tibet plateau: Ar-Ar and zircon SHRIMP geochronology from ophiolite and rhyolite in Guoganjianian[J]. Acta Petrologica Sinica, 23(5):911-918(in Chinese with English abstract).
LI Guang-ming, LI Jin-xiang, ZHAO Jun-xing, QIN Ke-zhang, CAO Ming-jian, EVANS N J. 2015. Petrogenesis and tectonic setting of Triassic granitoids in the Qiangtang terrane, central Tibet: Evidence from U-Pb ages, petrochemistry and Sr-Nd-Hf isotopes[J]. Journal of Asian Earth Sciences, 105:443-455.
LI Xue-ren. 2019. Volcanic-sedimentary petrological characteristics and tecttonic attributee of nadigangri formation in qiangtang basin[D]. Beijing: China University of Geosciences(in Chinese with English abstract).
LI Ya-lin, HE Juan, WANG Cheng-shan, HAN Zhong-peng, MA Peng-fei, XU Ming, DU Kai-yuan. 2015b. Cretaceous volcanic rocks in south Qiangtang Terrane: Products of northward subduction of the Bangong-Nujiang Ocean?[J]. Journal of Asia Earth Sciences, 104: 69-83..
LI Ya-lin, HE Juan, WANG Cheng-shan, SANTOSH M, DAI Jin-gen, ZHANG Yu-xiu. 2013. Late Cretaceous K-rich magmatism in central Tibet: Evidence for early elevation of the Tibetan plateau?[J]. Lithos, 160: 1-13.
LI Ya-lin, WANG Cheng-shan, DAI Jin-gen, XU Gan-qin, HOU Yun-ling, LI Xiao-han. 2015a. Propagation of the deformation and growth of the Tibetan-Himalayan orogen: A review[J].Earth-Science Reviews, 143: 36-61.
LI Ya-lin, WANG Cheng-shan. 2010. Tectonic event during Cretaceous in Qiangtang basin and its implications for hydrocarbon accumulation[J]. Petroleum Science, 7(4): 466-471.
LI Ya-lin.2011. Petroleum geological characteristics and resource potential in Tonam area of Qiangtang Basin[M]. Beijing:Geological Publishing House(in Chinese).
LIU De-liang, SHI Ren-deng, DING Lin, ZOU Hai-bo. 2017. Late Cretaceous transition from subduction to collision along the Bangong-Nujiang Tethys: New volcanic constraints from central Tibet[J]. Lithos, 296-299: 452-470.
LIU Shao-feng, ZHANG Guo-wei. 2005. Fundamental ideas, contents and methods in study of basin and mountain relationship[J]. Earth Science Frontiers, 12(3): 101-111(in Chinese with English abstract).
MA An-lin, HU Xiu-mian, GARZANTI E, HAN Zhong, LAI Wen.2017. Sedimentary and tectonic evolution of the southern Qiangtang basin: Implications for the Lhasa-Qiangtang collision timing[J]. Journal of Geophysical Research, 123(9):7338-7342.
MA An-lin, HU Xiu-mian, PAUL K, HAN Zhong, LAI Wen, BOUDAGHER F M. 2018. The disappearance of a late jurassic remnant sea in the southern qiangtang block (shamuluo formation, najiangco area): implications for the tectonic uplift of central tibet[J]. Palaeogeography Palaeoclimatology Palaeoecology, 506: 30-47.
MENG Jun, ZHAO Xi-xi, WANG Cheng-shan, LIU Hao, LI Ya-lin, HAN Zhong-peng, LIU Tao, WANG Meng. 2017. Palaeomagnetism and detrital zircon U-Pb geochronology of Cretaceous redbeds from central Tibet and tectonic implications[J].Geological Journal, 53(5): 17715-17717.
MORTON A C, HALLSWORTH C. 1994. Identifying Provenance-Specific Features of Detrital Heavy Mineral Assemblages in Sandstones[J]. Sedimentary Geology, 90(3-4):241-256.
MORTON A C, HALLSWORTH C. 2007. Stability of detrital heavy minerals during burial diagenesis[C]//MANGE M, WRIGHT D K (Eds.), Heavy Minerals in Use. Developments in Sedimentology, 58: 215-245.
PAN Gui-tang, WANG Li-quan, ZHANG Wan-ping, WANG Bai-di.2013. Instructions for the tectonic map of the Tibet Plateau and its adjacent areas[M]. Beijing: Geological Publishing House(in Chinese).
PULLEN A, KAPP P, GEHRELS G E, DING Lin, ZHANG Qi.2011. Metamorphic rocks in central Tibet: Lateral variations and implications for crustal structure[J]. Geological Society of America Bulletin, 123(3-4): 585-600.
QIAN Xin-yu, LI Ya-lin, DAI Jin-gen, WANG Cheng-shan, HAN Zhong-peng, ZHANG Jia-wei, LI Han-ao. 2020. Apatite and zircon (U-Th)/He thermochronological evidence for Mesozoic exhumation of the Central Tibetan Mountain Range[J]. Geological Journal, 56(1): 599-611.
QIAN Xin-yu. 2020. Low-temperature thermochronological constraints on the exhumation history of the North Qiangtang Basin and the central uplift since the Late Triassic[D]. Beijing: China University of Geosciences(in Chinese with English abstract).
WANG Cheng-shan, LI Xiang-hui.2003. Sedimentary basin:From principles to analyses[M]. Beijing: Higher Education Press( in Chinese).
WANG Jian, FU Xiu-gen, CHEN Wen-xi, TAN Fu-wen, WANG Zheng-jiang, ZHUO Kai-wen. 2008. Chronology and geochemistry of the volcanic rocks in Woruomountain region, northern Qiangtang depression:implications to the Late Triassic volcanic-sedimentaryevents[J]. Sciencein China:Series D, 38(1): 33-43(in Chinese with English abstract).
WANG Li-cheng, WEI Yu-shuai. 2013. Apatite fission track thermochronology evidence for the Mid-Cretaceous tectonic event in the Qiangtang Basin, Tibet[J]. Acta Petrologica Sinica, 29(3): 1039-1047(in Chinese with English abstract).
WANG Zhi-long, HU Xi-chong, SHI Xiao-long, HUANG Qiang-tai, ZHENG Hao, SHI Sheng-mei. 2017. Sedimentary rocks and geochemical characteristics as well as detrital zircon of Abushan Formation in Woruobale and Bailong area, Tibet, and their indicating significance for provenance information[J]. Geological Bulletin of China, 36(07):1188-1203( in Chinese with English abstract).
WANG Zhong-wei, WANG Jian, FU Xiu-gen, FENG Xing-lei, WANG Dong, SONG Chun-yan, CHEN Wen-bin, ZENG Sheng-qiang, YU Fei. 2018. Provenance and tectonic setting of the Quemoco sandstones in the North Qiangtang Basin, North Tibet: Evidence from geochemistry and detrital zircon geochronology[J]. Geological Journal, 53(4): 1465-1481.
WU Rui-zhong, HU Cheng-zu, WANG Cheng-shan, ZHANG Mao-gong, GAO De-rong, LAN Bo-rong, ZHANG Shao-nan, CHEN De-quan, WANG Quan-hai. 1986. The stratigraphical system of Qiangtang district in Northern Xizang (Tibet)[C]//Contribution to the geology of the Qianghai-Xizang(Tibet) plateau. Beijing: Geological Publishing House:1-32(in Chinese).
WU Zhen-han, BAROSH P J, YE Pei-sheng, HU Dao-gong.2015. Late cretaceous tectonic framework of the tibetan plateau[J]. Journal of Asian Earth Sciences, 114(DEC.15PT.4):693-703.
WU Zhen-han, GAO Rui, LU Zhan-wu, YE Pei-sheng, LU Lu, YIN Cai-yun. 2014. structures of the qiangtang basin and its signigicance to oil gas exploration[J]. Acta Geologica Sinica, 88(6): 1130-1144(in Chinese with English abstract).
WU Zhen-han, LIU Zhi-wei, ZHAO Zhen, JI Chang-jun, YE Pei-sheng. 2016. Thrust and Uplift of the Lung’erni Angdarco Paleo Oil Reservoirs in the Qiangtang Basin[J]. Acta Geologica Sinica, 9 (4): 615-627( in Chinese with English abstract).
WU Zhen-han, SONG Yang, ZHAO Zhen. 2021. Seismic-gravity Inverse Modeling and Deep Oil-reservoir Prediction of Northern Qiangtang Depression[J]. Acta Geoscientica Sinica, 42(01): 1-8(in Chinese with English abstract).
WU Zhen-han, ZHAO Xun, YE Pei-sheng, WU Zhong-hai, HU Dao-gong, ZHOU Chun-jing. 2007. Paleo-elevation of the Tibetan Plateau inferred from carbon and oxygen isotopes of lacustrine deposits[J]. Acta Geologica Sinica, 81(9):1277-1288(in Chinese with English abstract).
YIN An, HARRISON T M. 2000. Geologic evolution of the Himalayan-Tibetan orogen[J]. Annual Review of Earth and Planetary Sciences, 28(28): 211-280.
YUE Long, MOU Shi-yong, ZENG Chang-xing, YI Cheng-xing.2006. Age of the Kangtog Formation in the Dinggo-Gyaco area, Qiangtang, northern Tibet, China[J]. Geological Bulletin of China, 25(1-2): 229-232(in Chinese with English abstract).
ZENG Qing-gao, LI Xiang-hui, XIA Bin, XU Wen-li, NIMA Ci-ren, PU Qiong, LI Jun. 2009. Heavy mineral assemblages and provenance analysis of the Upper Triassic in Renbu area, southern Tibet[J]. Geological Bulletin of China, 28(01):38-44(in Chinese with English abstract).
ZHAI Qing-guo, JAHN B M, WANG Jun, SU Li, MO Xuan-xue, WANG Kuo-lung, TANG Suo-han, LEE Hao-yang. 2013.The Carboniferous ophiolite in the middle of the Qiangtang terrane, Northern Tibet: SHRIMP U-Pb dating, geochemical and Sr-Nd-Hf isotopic characteristics[J]. Lithos, 168-169:186-199.
ZHANG Jia-wei, SINCLAIR H D, LI Ya-lin, WANG Cheng-shan, PERSANO C, QIAN Xin-yu, HAN Zhong-peng, YAO Xiang, DUAN Yao-yao. 2019. Subsidence and exhumation of the Mesozoic Qiangtang Basin: Implications for the growth of the Tibetan plateau[J]. Basin Research, 31(4): 754-781.
ZHANG Kai-jun, ZHANG Yu-xiu, XIA Bang-dong, HE You-bin.2006. Temporal Variations of Mesozoic Sandstone Compositions in the Qiangtang Block, Northern Tibet (China): Implications for Provenance and Tectonic Setting[J]. Journal of Sedimentary Research, 8(12): 1035-1048.
ZHANG Xiu-zheng, DONG Yong-sheng, WANG Qiang, DAN Wei, ZHANG Chun-fu, DENG Ming-rong, XU Wang, XIA Xiao-ping, ZENG Ji-peng, LIANG He. 2016. Carboniferous and Permian evolutionary records for the Paleo-Tethys Ocean constrained by newly discovered Xiangtaohu ophiolites from central Qiangtang, central Tibet[J]. Tectonics, 35(7):1670-1686.
ZHAO Zhen, WU Zhen-han, YANG Yi-zhuo, JI Chang-jun. 2020.Establishing the chronostratigraphic framework of the continental red beds in Central Qiangtang Basin: Constrained by zircon U-Pb ages[J]. Geological Review, 24(5): 249-263(in Chinese with English abstract).
ZHAO Zheng-zhang, LI Yong-tie, YE He-fei, ZHANG Jing-wen.2000. Tectonic Characteristics and Basin Evolution of the Tibet Plateau[M]. Beijing: Science & Technology Press:208-220(in Chinese).
ZHAO Zhong-bao, BONS P D, WANG Gen-hou, LIU Yan, ZHENG Yi-long. 2014. Origin and pre-Cenozoic evolution of the south Qiangtang basement, Central Tibet[J]. Tectonophysics, 623: 52-66.
ZHAO Zhong-bao, BONS P D, STÜBNER K, WANG Gen-hou.2017. Early Cretaceous exhumation of the Qiangtang Terrane during collision with the Lhasa Terrane, Central Tibet[J].Terra Nova, 29: 382-391.
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