Detrital Apatite Trace Element Characteristics of Main Rivers around
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摘要: 江汉盆地堆积的沉积物记录了长江演化的地质信息, 一直是长江演化研究的热点, 但目前的物源示踪方法存在诸多争议, 因此寻找新的物源示踪指标是研究的重点。磷灰石是河流沉积物中常见的副矿物, 其微量元素主要受原岩组成的影响而有良好的稳定性, 在不同构造单元差异明显, 是开展河流物源示踪研究的理想指示矿物。基于此, 本文利用激光剥蚀电感耦合等离子质谱(LA-ICP-MS)对江汉盆地周缘主要地表河流沉积物进行碎屑磷灰石原位微量元素分析, 并结合Kolmogorov-Smirnov统计方法的多维判别(MDS)图解寻找区分长江上游与中游物源的新指标, 并检验了特征元素指标在物源判别中的有效性。结果表明碎屑磷灰石的Sr/Y比值及Nd-Sm、Sm-Eu、Eu-Gd、La/Yb-La/Sm的微量元素双变量图解能有效区分长江上游和中游(汉江、湘江、沅江)的物源, 可作为区分长江上游与中游物源的重要特征指标。综合研究认为: 河流沉积物碎屑磷灰石的微量元素比值和稀土元素分布特征在贯通大河的物源示踪研究中具有重大潜力。Abstract: Sediments deposited in the Jianghan Basin record important information about the formation and evolution of the Yangtze River, and hence the provenance tracer of detrital materials in the basin has always been a hot topic, but the timing of the cutting through the Yangtze River is still inconclusive.Apatite is a common accessory mineral in fluvial sediments, and trace elements of apatite are mainly affected by their source rocks and significant differences in the trace elements of apatite existent in different regions, so it can be used as a good indicator of source minerals.On such a basis, the authors used the laser ablation inductively coupled plasma mass spectrometry(LA-ICP-MS) in combination with the multi-dimensional identification (MDS) of statistical method to systematically analyze new indicator so as to distinguish the provenance of the upper and middle reaches of the Yangtze River; the MDS diagram also verifies the rationality of the characteristic elements indicators.The results indicate that the Sr/Y ratio of detrital apatite can be used to distinguish the provenance of Hanjiang River, Yuanjiang River, Xiangjiang River and main stream of the Yangtze River in the study area.The bivariate diagrams of trace elements of Nd-Sm, Sm-Eu, Eu-Gd and La/Yb-La/Sm can effectively distinguish the provenance of the upper and middle reaches of the Yangtze River.On the whole, the trace element ratio diagram and distribution characteristics of REE have great potential in the study of provenance tracer in large rivers.
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邓宾, 曾璐, 周庆, 姜磊, DAVID C.2017.碎屑岩磷灰石单矿物多法定年进展与应用[J].地质科技情报, 36(01): 77-86.
何梦颖, 郑洪波, 黄湘通, 贾军涛, 李玲.2011.长江流域沉积物黏土矿物组合特征及物源指示意义[J].沉积学报, 29(3):544-551.
何梦颖, 郑洪波, 贾军涛.2013.长江现代沉积物碎屑锆石U-Pb年龄及 Hf同位素组成与物源示踪研究[J].第四纪研究, 33(4): 656-670.
康春国, 李长安, 王节涛, 邵磊.2009.江汉平原沉积物重矿物特征及其对三峡贯通的指示[J].地球科学-中国地质大学学报, 34(3): 419-427.
李长安.1998.桐柏-大别山掀斜隆升对长江中游环境的影响[J].地球科学-中国地质大学学报, 4(6): 562-566.
李长安, 殷鸿福, 俞立中, 陈中原.2000.流域环境系统演化概念模型: 山-河-湖-海互动及对全球变化的敏感响应: 以长江为例[J].长江流域资源与环境, 9(3): 358-363.
李景瑞, 刘升发, 冯秀丽, 孙兴全, 石学法.2016.孟加拉湾中部表层沉积物稀土元素特征及其物源指示意义[J].海洋地质与第四纪地质, 36(4): 41-50.
林旭, 刘静, 彭保发, 李长安, 吴泉源.2017.青藏高原周围河流基岩和碎屑矿物低温热年代学研究进展[J].地震地质, 39(6): 1091-1110.
林旭, 刘静.2019.江汉和洞庭盆地与周缘造山带盆山耦合研究进展[J].地震地质, 41(2): 499-520.
林旭, 赵希涛, 吴中海, 李长安, 刘海金, 李兆宁.2020.渤海湾周缘主要河流钾长石物源示踪指标研究[J].地质科技通报, 39(6): 10-18.
林旭, 刘静, 吴中海, 李长安, 刘海金.2021.渤海湾盆地河流沉积物扩散研究: 碎屑锆石U-Pb年龄和磷灰石原位地球化学元素双重约束[J].地质力学学报, 27(2): 304-316.
刘海金, 龚志军, 林旭.2021.渤海主要汇入河流碎屑磷灰石地球化学特征及成因分析[J].海洋地质与第四纪地质, 41(4):74-86.
汤倩, 孙晓明, 梁金龙, 徐莉, 翟伟, 梁业恒.2007.CCSD HP-UHP变质岩中磷灰石稀土元素(REE)地球化学及其示踪意义[J].岩石学报, 23(12): 3255-3266.
王节涛, 李长安, 杨勇, 王秋良.2009.江汉平原周老孔中碎屑锆石 LA-ICP-MS定年及物源示踪[J].第四纪研究, 29(2):343-351.
向芳, 朱利东, 王成善, 杨文光.2006.宜昌地区第四纪沉积物中玄武岩砾石特征及其与长江三峡贯通的关系[J].地球科学与环境学报, 28(2): 6-10.
杨守业, 李从先, JUNG H S, CHOI M S.2003.黄河沉积物中REE制约与示踪意义再认识[J].自然科学进展, 13(1):365-371.
杨守业.2006.亚洲主要河流的沉积地球化学示踪研究进展[J].地球科学进展, 21(6): 648-655.
杨文光, 谢昕, 郑洪波, 朱利东.2012.南海北部陆坡高速堆积体沉积物稀土元素特征及其物源意义[J].矿物岩石, 11(1): 74-81.
中国人民共和国水利部.2019.中国河流泥沙公报[M].北京:中国水利水电出版社: 1-21.
张宏飞, 高山.2012.地球化学[M].北京: 地质出版社: 130-136.
赵振华.2010.副矿物微量元素地球化学特征在成岩成矿作用研究中的应用[J].地学前缘, 17(1): 267-286.
ALIBO D S, NOZAKI Y.1999.Rare earth elements in seawater:particle association, shale-normalization, and Ce oxidation - A study along the slopes of Sagami and Nankai Troughs near Japan[J].Geochimica et Cosmochimica Acta, 63(3-4):363-372.
BELOUSOVAE E A, GRIFFIN W L, O'REILLY S Y, FISHER N I.2002.Apatite as an indicator mineral for mineral exploration:trace-element compositions and their relationship to host rock type[J].Journal of Geochemical Exploration, 76(1): 45-69.
CAO Ming-jian, LI Guang-ming, QIN Ke-zhang, SEITMURATOVA E Y, LIU Yong-sheng.2012.Major and trace element characteristics of apatites in granitoids from Central Kazakhstan: implications for petrogenesis and mineralization[J].Resource Geology, 62(1): 63-83.
CHAKRAPANI G J.2005.Major and trace element geochemistry in upper Ganga river in the Himalayas, India[J].Environmental Geology, 48(2): 189-201.
CLARK M K, SCHOENBOHM L M, ROYDEN L H, WHIPPLE, K X, BURCHFIEL B C, ZHANG X, TANG W, WANG E, CHEN L.2004.Surface uplift, tectonics, and erosion of eastern Tibet from large-scale drainage patterns[J].Tectonics, 23(1): 6.1-6.20.
CLIFT P D, LONG H V, HINTON R, ELLAM R M, HANNIGAN R, TAN M T, BLUSZTAJN J, DUC N A.2008.Evolving east Asian river systems reconstructed by trace element and Pb and Nd isotope variations in modern and ancient Red River-Song Hong sediments[J].Geochemistry, Geophysics, Geosystems, 9(4): 1-29.
DENG Bin, CHEW D, JIANG Lei, MARK C, COGNE N, WANG Zi-jian, LIU Shu-gen.2018.Heavy mineral analysis and detrital U-Pb ages of the intracontinental Paleo-Yangzte basin:Implications for a transcontinental source-to-sink system during Late Cretaceous time[J].Geological Society of America Bulletin, 130(11-12): 2087-2109.
DENG Bin, ZENG Lu, ZHOU Qing, JIANG Lei, DAVID C.2017.A review of detrital apatite single-grain LA-ICPMS multi-dating[J].Geological Science and Technology Information, 36(1): 77-86(in Chinese with English abstract).
FLEET M E, PAN Y.1995.Site preference of rare earth elements in fluorapatite[J].American Mineralogist, 80: 329-335.
FOSTER G L, CARTER A.2007.Insights into the patterns and locations of erosion in the Himalaya: A combined fission-track and in situ Sm-Nd isotopic study of detrital apatite[J].Earth and Planetary Science Letters, 257(3-4): 407-418.
HE Meng-ying, ZHENG Hong-bo, HUANG Xiang-tong, JIA Jun-tao, LI Ling.2011.Clay mineral assemblages in the Yangtze drainage and provenance implications[J].Acta Sedimentologica Sinica, 29(3): 544-551(in Chinese with English abstract).
HE Meng-ying, ZHENG Hong-bo, JIA Jun-tao.2013.Detrital zircon U-Pb dating and Hf isotope of modern sediments in the Yangtze River: Implications for the Sediment Provenance[J].Quaternary Sciences, 33(4): 656-670(in Chinese with English abstract).
HU Zhao-chu, ZHANG Wen, LIU Yong-Sheng, GAO Shan, LI Ming, ZONG Ke-qing, CHEN Hai-hong, HU Shen-hong.2015.“Wave” signal smoothing and mercury removing device for laser ablation quadrupole and multiple collector ICP-MS analysis: application to lead isotope analysis[J].Analytical Chemistry, 87: 1152-1157.
JIANG Hua-jun, LI Chang-an, KANG Chun-guo, ZHANG Yu-fen, WEI Chuan-yi, ZHAO Ju-xing, LI Ya-wei.2020.Provenance discrimination of upper Yangtze River basin sediments: New insights from heavy mineral signatures and detrital magnetite geochemistry[J].Quaternary International, 568: 79-89.
KANG Chun-guo, LI Chang-an, WANG Jie-tao, SHAO Lei.2009.Heavy minerals characteristics of sediments in Jianghan plain and its indication to the forming of the Three Gorges[J].Earth Science-Journal of China University of Geosciences, 34(3):419-427(in Chinese with English abstract).
LI Chang-an, YIN Hong-fu, YU Li-zhong, CHEN Zhong-yuan.2000.Concept model on the fluvial environment system:mountain-river-lake-sea interaction and sensitive responding to global change[J].Resources and Environment in the Yangtze Basin, 9(3): 358-363(in Chinese with English abstract).
LI Chang-an.1998.Effect of tilted uplift of Tongbai-Dabie mountains on middle Yangtze river environment[J].Earth Science-Journal of China University of Geosciences, 4(6):562-566(in Chinese with English abstract).
LI Chuan-shun, SHI Xue-fa, KAO Shuh-ji, LIU Yan-guang, LYU Hua-hua, ZOU Jian-jun, LIU Sheng-fa, QIAO Shu-qing.2013.Rare earth elements in fine-grained sediments of major rivers from the high-standing island of Taiwan[J].Journal of Asian Earth Sciences, 69(1): 39-47.
LI Jing-rui, LIU Sheng-fa, FENG Xiu-li, SUN Xing-quan, SHI Xue-fa.2016.Rare earth element geochemistry of surface sediments in mid-bengal bay and implications for provenance[J].Marine Geology & Quaternary Geology, 36(4):41-50(in Chinese with English abstract).
LIN Xu, LIU Jing, PENG Bao-fa, LI Chang-an, WU Quan-yuan.2017.A review of Low-temperature thermochronology on bedrock and detritus from rivers around the Tibetan plateau[J].Seismology and Geology, 39(6): 1091-1110(in Chinese with English abstract).
LIN Xu, LIU Jing, WU Zhong-hai, LI Chang-an, LIU Hai-jin.2021.The studying of fluvial sediments spreading in Bohai Bay Basin--double constraints from detrital zircon U-Pb age and in situ geochemical element of apatite grains[J].Journal of Geomechanics, 27(2): 304-316(in Chinese with English abstract).
LIN Xu, LIU Jing.2019.A review of mountain-basin coupling of Jianghan and Dongting basin with their surrounding mountains[J].Seismology and Geology, 41(2): 499-520(in Chinese with English abstract).
LIN Xu, ZHAO Xi-tao, WU Zhong-hai, LI chang-an, LIU Hai-jin, LI Zhao-ning.2020.Source tracing elements of K-feldspars of main river around Bohai bay basin[J].Bulletin of Geological Science and Technology, 39(6): 10-18(in Chinese with English abstract).
LIU Hai-jin, GONG Zhi-jun, LIN Xu.2021.Study on geochemical characteristics of detrital apatite source in Bohai Sea[J].Marine Geology & Quaternary Geology, 41(4): 74-86(in Chinese with English abstract).
LIU Shao-feng, STEEL R, ZHANG Guo-wei.2005.Mesozoic sedimentary basin development and tectonic implication, northern Yangtze Block, eastern China: record of continent-continent collision[J].Journal of Asian Earth Sciences, 25(1): 9-27.
LIU Shao-feng, ZHANG Guo-wei.2013.Mesozoic basin development and its indication of collisional orogeny in the Dabie orogen[J].Chinese Science Bulletin, 58(8): 827-852.
LIU Yong-sheng, HU Zhao-chu, GAO Shan, GÜNTHER D, XU Juan., GAO Chang-gui, CHEN Hai-hong.2008.In situ analysis of major and trace elements of anhydrous minerals by LA-ICP-MS without applying an internal standard[J].Chemical Geology, 257: 34-43.
MALUSÀ M G, WANG Jian-gang, GARZANTI E, LIU Zhi-chao, VILLA I M, WITTMANN M.2017.Trace-element and Nd-isotope systematics in detrital apatite of the Po river catchment: Implications for provenance discrimination and the lag-time approach to detrital thermochronology[J].Lithos, 290-291(6): 48-59.
Ministry of Water Resources the People’s Republic of China.2019.China river sediment Bulletin[M].Beijing: China Waterpower Press: 1-21(in Chinese).
MUNKSGAARD N C, LIM K, PARRY D L.2003.Rare earth elements as provenance indicators in North Australian estuarine and coastal marine sediments[J].Estuarine Coastal and Shelf Science, 57(3): 399-409.
MURRAY R W.1994.Chemical criteria to identify the depositional environment of chert: general principles and applications[J].Sedimentary Geology, 90(3-4): 213-232.
O'SULLIVAN G, CHEW D, KENNY G, HENRICHS I, MULLIGAN D.2019.The trace element composition of apatite and its application to detrital provenance studies[J/OL].Earth-Science Reviews[2019-11-25].https://doi.org/10.1016/j.earscirev.
PAN Li-chuan, HU Rui-zhong, WANG Xi-song, BI Xian-wu, ZHU Jing-jing, LI Chu-si.2016.Apatite trace element and halogen compositions as petrogenetic-metallogenic indicators: Examples from four granite plutons in the Sanjiang region SW China[J].Lithos, 254-255: 118-130.
PICCOLI P M, CANDELA P A.2002.Apatite in igneous systems[J].Reviews in Mineralogy & Geochemistry, 48(1): 255-292.
SHAO Lei, LI Chang-an, YUAN Sheng-yuan, KANG Chun-guo, WANG Jie-tao, LI Ting.2012.Neodymium isotopic variations of the late Cenozoic sediments in the Jianghan Basin: Implications for sediment source and evolution of the Yangtze River[J].Journal of Asian Earth Sciences, 45: 57-64.
SHEN Chuan-bo, MEI Lian-fu, PENG Lei, CHEN You-zhi, YANG Zhao, HONG Guang-fu.2012.LA-ICP-MS U-Pb zircon age constraints on the provenance of Cretaceous sediments in the Yichang area of the Jianghan Basin, central China[J].Cretaceous Research, 34: 172-183.
SHOLKOVITZ E R, LANDING W M, LEWIS B L.1994.Ocean particle chemistry: The fractionation of rare earth elements between suspended particles and seawater[J].Geochimica et Cosmochimica Acta, 58(6): 1567-1579.
SUN Xi-lin, KUIPER K F, TIAN Yun-tao, LI Chang-an, ZHANG Zeng-jie, WIJBRANS J R.2020a.Comparison of detrital zircon U-Pb and muscovite 40Ar/39Ar ages in the Yangtze sediment:Implications for provenance studies[J].Minerals, 10(7): 1-15.
SUN Xi-lin, KUIPER K F, TIAN Yun-tao, LI Chang-an, ZHANG Zeng-jie, GEMIGNANI L, GUO Ru-jun, DE BREIJ V H L, WIJBRANS J R.2020b.40Ar/39Ar mica dating of late Cenozoic sediments in SE Tibet: implications for sediment recycling and drainage evolution[J].Journal of the Geological Society, 177(4): 843-854.
SUN Xi-lin, TIAN Yun-tao, KUIPER K F, LI Chang-an, ZHANG Zeng-jie, WIJBRANS J R.2021.No Yangtze River prior to the late Miocene: Evidence from detrital muscovite and K-feldspar 40Ar/39Ar geochronology[J].Geophysical Research Letters, 48, e2020GL089903.
TANG Qian, SUN Xiao-ming, LIANG Jin-long, XU Li, ZHAI Ye-heng.2007.Rare earth elements(REE) geochemistry of apatite in HP-UHP metamorphic rocks from chinese continental scientific drilling(CCSD) project and their implications[J].Acta Petrologica Sinica, 23(12): 3255-3266(in Chinese with English abstract).
TAYLOR S R, MCLENNAN S M.1985.The Continental Crust: Its Composition and Evolution[M].New York: Oxford University Press: 307-312.
VERMEESCH P, RESENTINI A, GARZANTI E.2016.An R package for statistical provenance analysis[J].Sedimentary Geology, 336: 14-25.
WANG Jie-tao, LI Chang-an, YANG Yong, WANG Qiu-liang.2009.The LA-ICPMS U-Pb detrital zircon geochronology and provenance study of sedimentary core in the Zhoulao town, the Jianghan plain, China[J].Quaternary Sciences, 29(2):343-351(in Chinese with English abstract).
WANG Ping, ZHENG Hong-bo, LIU Shao-feng, HOKE G D.2018.Late cretaceous drainage reorganization of the middle Yangtze river[J].Lithosphere, 10(3): 392-405.
WEI Chuan-yi, PIERRE V, ZHANG Yu-fen, BAHAIN J J, LIU Chun-ru, KANG Chun-guo, YIN Gong-ming, SUN Xi-lin, LI Chang-an.2020a.Chronology and provenance of the Yichang gravel layer deposits in the Jianghan Basin, middle Yangtze river valley, China: Implications for the timing of channelization of the Three Gorges Valley[J].Quaternary International, 550(3): 39-54.
WEI Chuan-yi, YIN Gong-ming, LI Ya-wei, LIU Chun-ru, LI Wen-peng, GUO Ru-jun.2020b.Quartz electron spin resonance signal intensity of Al and Ti-Li centers as a provenance indicator: An example from the Yangtze River Basin[J].Quaternary International, 562(1): 76-84.
WISSINK G K, HOKE G D, GARZIONE C N, ZENG JINGLIU.2016.Temporal and spatial patterns of sediment routing across the southeast margin of the Tibetan Plateau: Insights from detrital zircon[J].Tectonics, 35(11-12): 2538-2563.
XIANG Fang, ZHU Li-dong, WANG Cheng-shan, YANG Wen-guang.2006.Character of basaltic gravels in quaternary sediments in Yichang area and its relationship with formation of Yangtze Three Gorges[J].Journal of Earth Sciences and Environment, 28(2): 6-10(in Chinese with English abstract).
XU Zhao-kai, LIM D, CHOI J, YANG Shou-ye, JUNG H.2009.Rare earth elements in bottom sediments of major rivers around the Yellow Sea: implications for sediment provenance[J].Geo-Marine Letters, 29(5): 291-300.
YANG Chao-qun, SHEN Chuan-bo, ZATTIN M, YU Wu, SHI Shao-xian, MEI Lian-fu.2019.Provenances of Cenozoic sediments in the Jianghan Basin and implications for the formation of the Three Gorges[J].International Geology Review, 61(1): 1980-1999.
YANG Shou-ye, JUNG H S, CHOI M S, LI Cong-xian.2002.The rare earth element compositions of the Changjiang (Yangtze)and Huanghe (Yellow) river sediments[J].Earth Planetary ence Letters, 201(2): 407-419.
YANG Shou-ye, LI Cong-xian, JUNG H S, CHOI M S.2003.Recognize the controlling and tracing implication of REE of Yellow River sediments[J].Progress in Nature Science, 13(1):365-371(in Chinese).
YANG Shou-ye.2006.Advances in sedimentary geochemistry and tracing applications of Asian River[J].Advances in Earth Science, 21(6): 648-655(in Chinese with English abstract).
YANG Wen-guang, XIE Xin, ZHENG Hong-bo, ZHU Li-dong.2012.Rare earth element characteristic of sediment from high-deposition-rate sediment in the North slope of South China sea and its provenance significance[J].Mineral Petrol., 11(1): 74-81(in Chinese with English abstract).
ZHANG Hong-fei, GAO Shan.2012.Geochemistry[M].Beijing:Geological Publishing House: 130-136.
ZHANG Yu-fen, LI Chang-an, WANG Qiu-liang, CHEN Liang, MA Yong-fa, KANG Chun-guo.2008.Magnetism parameters characteristics of drilling deposits in Jianghan Plain and indication for forming of the Yangtze River Three Gorges[J].Chinese Science Bulletin, 53(4): 584-590.
ZHANG Zeng-jie, TYRRELL S, LI Chang-an, DALY J S, SUN Xi-lin, BLOWICK A, LIN Xu.2016.Provenance of detrital K-feldspar in Jianghan Basin sheds new light on the Pliocene-Pleistocene evolution of the Yangtze River[J].Geological Society of America Bulletin, 128(3): 1339-1351.
ZHAO Zhen-hua.2010.Trace element geochemistry of accessory minerals and its applications in petrogenesis and metallogenesis[J].Earth Science Frontiers, 17(1): 267-286(in Chinese with English abstract).
ZHENG Hong-bo, CLIFT P D, WANG Ping, TADA R, JIA Jun-tao, HE Meng-ying, JOURDAN F.2013.Pre-Miocene birth of the Yangtze River[J].Proceedings of the National Academy of Sciences, 110(19): 7556-7561.
ZHENG Hong-bo, CLIFT P D, HE Meng-ying, BIAN Zi-xuan, LIU Gao-zheng, LIU Xiao-chun, XIA Lei, YANG Qong, JOURDAN F.2020.Formation of the First Bend in the late Eocene gave birth to the modern Yangtze River, China[J].Geology, 49(1):doi:10.1130/G48149.1.
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