Detrital Material Diffusion in the Yellow River and Yangtze River:Constraints of Provenance Tracing for the Sand Ridges in Jiangsu Province
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摘要: 研究源-汇系统对于理解岩石风化、河流输砂、泥砂沉积以及陆地和海洋沉积过程具有重要意义。我国江苏省东海岸具有丰富的沉积物供应, 在某些沿海地段形成了一系列沙脊, 是进行沉积物源-汇过程研究的理想沉积记录之一。但目前对其物源区来自哪里还未达成共识。我们利用已发表的碎屑锆石U-Pb年龄和钾长石Pb同位素数据, 结合江苏沙脊及其周缘区域的数据结果, 详细厘定江苏沙脊的物源区, 并运用蒙特卡罗反演模型定量评估江苏沙脊潜在物源区对其物质贡献率。结果表明江苏沙脊北部的碎屑物质主要受大别山(45%)和鲁中山区(24%)的共同影响; 黄河(29%)、古黄河(27%)和长江(25%)的碎屑物质对江苏沙脊中部的物质组成起重要影响。江苏沙脊南部的物源主要来自长江(68%)。江苏沙脊的出现得益于黄河和长江这样的大陆尺度的大河搬运了丰富的碎屑物质到下游, 南黄海西海岸的平坦地貌有利于保存这些碎屑物质, 末次冰期后东亚陆架海动力过程(潮汐、海浪和沿岸流等)持续对其改造, 这体现了河流-海洋在塑造河口-海岸地貌中的交互作用。Abstract: The study of source-sink systems is important for understanding rock weathering, fluvial sand transport, mud and sand deposition, and terrestrial and marine sedimentary processes.The east coast of Jiangsu Province, which has an abundant sediment supply and a series of sand ridges in some coastal areas, comprises an ideal sedimentary record for studying the sediment source-sink process.However, there is no consensus on the provenance of these sand ridges.Based on previously published data on the U-Pb age of detrital zircon and Pb isotope composition of K-feldspar, we determined the provenance of the Jiangsu Sand Ridges in detail, using the Monte Carlo inversion model to quantitatively assess the contribution rates of the provenances to the material of the Jiangsu Sand Ridges.The results showed that the clastic material in the northern part of the sand ridge was mainly influenced by the Dabie(45%) and Luzhong Mountains(24%).The detrital materials from the Yellow River(29%), ancient Yellow River(27%), and Yangtze River(25%) had an important influence on the composition of the central Jiangsu Sand Ridges.The provenance of the southern part of the sand ridge in Jiangsu Province was mainly the Yangtze River(68%).The emergence of the Jiangsu Sand Ridges was due to the transportation of large amounts of detritus to the downstream by the large continental-scale Yellow River and Yangtze River.The flat landform on the west coast of the South Yellow Sea was conducive to the preservation of these detrital materials, and the East Asian shelf sea dynamic processes (tides, waves, and coastal currents) continued to transform the sand ridge after the last glacial age.This process reflects river-ocean interactions in shaping estuarine-coastal landscapes.
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Key words:
- Jiangsu Sand Ridge /
- Yellow River /
- Yangtze River /
- zircon U-Pb age /
- K-feldspar Pb isotope
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何梦颖, 金融哲, 杨青, 等, 2018.建湖冈西剖面全新世沉积物物源示踪及其对苏北盆地水系调整的指示[J].海洋地质前沿, 34(1): 1-5, 11.
孔祥淮, 陆凯, 徐晓达, 等, 2022.南黄海地形地貌特征及其成因探讨[J].海洋地质与第四纪地质, 42(6): 21-31.
林旭, 陈济鑫, 吴中海, 等, 2022d.现代河流碎屑磷灰石原位地球化学分析--对长江物源示踪研究的启示[J].沉积学报, 40(4): 861-870.
林旭, 李长安, 2022b.黄河碎屑物质和中国西北沙漠/沙地存在物源联系吗?[J].地球科学, 47(10): 3633-3647.
林旭, 刘海金, 刘静, 等, 2022a.黄河流域碎屑钾长石Pb同位素物源示踪[J].地震地质, 44(4): 944-960.
林旭, 刘静, 吴中海, 等, 2020b.中国北部陆架海碎屑锆石U-Pb年龄和钾长石主微量元素物源示踪研究[J].地质学报, 94(10): 3024-3035.
林旭, 刘静, 吴中海, 等, 2021a.环渤海湾盆地主要河流碎屑锆石U-Pb年龄特征及其物源示踪意义[J].海洋地质与第四纪地质, 41(2): 136-145.
林旭, 刘静, 吴中海, 等, 2021b.末次冰期山东黄土物源研究:来自碎屑锆石U-Pb年龄的约束[J].地球科学, 46(9):3230-3244.
林旭, 吴中海, 赵希涛, 等, 2022c.江汉盆地河流碎屑锆石U-Pb年龄特征及其对物源研究的启示[J].地球学报, 43(1):73-81.
林旭, 赵希涛, 吴中海, 等, 2020a.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.
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[J].海洋地质与第四纪地质, 41(4):74-86.
汤倩, 闫玉茹, 周欣, 等, 2021.连云港海州湾近海碎屑沉积物矿物组成及特征分析[J].华东地质, 42(2): 239-245.
尹秀珍, 刘万洙, 蓝先洪, 等, 2007.南黄海表层沉积物的碎屑矿物、地球化学特征及物源分析[J].吉林大学学报(地球科学版), 37(3): 491-499.
张理刚, 1995.东亚岩石圈块体地质[M].北京: 科学出版社:1-252.
张凌, 王平, 陈玺赟, 等, 2020.碎屑锆石U-Pb年代学数据获取、分析与比较[J].地球科学进展, 35(4): 414-430.
赵希涛, 耿秀山, 张景文, 1979.中国东部20000年来的海平面变化[J].海洋学报, 1(2): 269-281.
赵希涛, 胡道功, 吴中海, 等, 2017.长江三角洲地区晚新生代地质与环境研究进展述评[J].地质力学学报, 23(1): 1-64.
BARHAM M, KIRKLAND C L, HOVIKOSKI J, et al., 2021.Reduce or recycle? Revealing source to sink links through integrated zircon-feldspar provenance fingerprinting[J].Sedimentology, 68(2): 531-556.
CAO Jicheng, ZHAO Yifei, XU Min, et al., 2021.Quantitative geochemistry as a provenance indicator for surface sediments in the north Jiangsu radial sand ridges (NJRSR) in the South Yellow Sea, East China[J].Continental Shelf Research, 228:104545.
CHOI T, LEE Y I, ORIHASHI Y, YI H I, 2013.The provenance of the southeastern Yellow Sea sediments constrained by detrital zircon U-Pb age[J].Marine Geology, 337: 182-194.
HE Mengying, JIN Rongzhe, YANG Qing, et al., 2018.Provenance of the Holocene sediments in the Jianhu Gangxi section and the implications for the drainage system adjustment of the subei basin[J].Marine Geology Frontiers, 34(1): 1-5, 11(in Chinese with English abstract).
HE Mengying, ZHENG Hongbo, CLIFT P D, 2013.Zircon U-Pb geochronology and Hf isotope data from the Yangtze River sands: Implications for major magmatic events and crustal evolution in Central China[J].Chemical Geology, 360: 186-203.
KONG Xianghuai, LU Kai, XU Xiaoda, et al., 2022.A study on the characteristic and its cause of topography and geomorphology of the South Yellow Sea[J].Marine Geology & Quaternary Geology, 42(6): 21-31(in Chinese with English abstract).
LAN Xianhong, WANG Hongxia, LI Rihui, et al., 2007.Major elements composition and provenance analysis in the sediments of the South Yellow Sea[J].Earth Science Frontiers, 14(4): 197-203.
LI Congxian, WANG Ping, SUN Heping, et al., 2002.Late Quaternary incised-valley fill of the Yangtze delta (China): its stratigraphic framework and evolution[J].Sedimentary Geology, 152(1-2): 133-158.
LI Congxian, ZHANG Jiaqiang, FAN Daidu, et al., 2001.Holocene regression and the tidal radial sand ridge system formation in the Jiangsu coastal zone, east China[J].Marine Geology, 173(1-4): 97-120.
LI Guangxue, LI Pin, LIU Yong, et al., 2014.Sedimentary system response to the global sea level change in the East China Seas since the last glacial maximum[J].Earth-Science Reviews, 139: 390-405.
LI Lei, SU Jinbao, RAO Wenbo, WANG Yigang, 2017.Using geochemistry of rare earth elements to indicate sediment provenance of sand ridges in southwestern Yellow Sea[J].Chinese Geographical Science, 27: 63-77.
LI Tianning, RAO Wenbo, WANG Shuai, et al., 2023a.Pb and O isotopic characteristics of single minerals in the Jianggang radial sand ridges of the southwestern Yellow Sea: Implications for provenance and pathways of silt-size sediments[J].Science of The Total Environment, 891: 164729.
LI Tianning, RAO Wenbo, WANG Shuai, et al., 2023b.Identifying the clay-size sediment provenance of the radial sand ridges in the southwestern Yellow Sea using geochemical and Sr-Nd isotopic tracers[J].Marine Geology, 455: 106957.
LIN Xu, CHEN Jixin, WU Zhonghai, et al., 2022d.In-situ Geochemical Analysis of Modern Fluvial Detrital Apatite: Implications for provenance tracing studies in the Yangtze River[J].Acta Sedimentologica Sinica, 40(4): 861-870(in Chinese with English abstract).
LIN Xu, LI Changan, 2022b.Are Detrital Materials from the Yellow River Associated with Desert/Sandy Land Provenances in Northwest China?[J].Earth Science, 47(10): 3633-3647(in Chinese with English abstract).
LIN Xu, LIU Haijin, LIU Jing, et al., 2022a.Provenance tracing of Pb isotopes of fluvial detrital K-feldsapr from the Yellow River Basin[J].Seismology and Geology, 44(4): 944-960(in Chinese with English abstract).
LIN Xu, LIU Jing, WU Zhonghai, LIU Weiming, et al., 2021b.Provenance of the Loess in Shandong Province (Eastern China)during the Last Ice Age: Constraints from the U-Pb age of detrital zircons[J].Earth Science, 46(9): 3230-3244(in Chinese with English abstract).
LIN Xu, LIU Jing, WU Zhonghai, WANG Shimei, et al., 2020b.Detrital zircon U-Pb ages and K-feldspar main and trace elements provenance studying from fluvial to marine sediments in northern China[J].Acta Geologica Sinica, 94(10):3024-3035(in Chinese with English abstract).
LIN Xu, LIU Jing, WU Zhonghai, YUE Baojing, et al., 2021a.U-Pb age characteristics of major fluvial detrital zircons in the Bohai Bay Basin and their provenance implications[J].Marine Geology & Quaternary Geology, 41(2): 136-145(in Chinese with English abstract).
LIN Xu, WU Zhonghai, ZHAO Xitao, et al., 2022c.Detrital zircon U-Pb age characteristics of main rivers around Jianghan Basin and implications of provenance tracing[J].Acta Geoscientica Sinica, 43(1): 73-81(in Chinese with English abstract).
LIN Xu, ZHAO Xitao, WU Zhonghai, et al., 2020a.Source tracing elements of K-feldspars of main rivers around Bohai Bay Basin[J].Bulletin of Geological Science and Technology, 39(6):10-18(in Chinese with English abstract).
LIU Binglin, WU Haotian, ZHANG Zhenke, et al., 2021.Recent evolution of the intertidal sand ridge lines of the Dongsha Shoal in the modern radial sand ridges, East China[J].International Journal of Environmental Research and Public Health, 18(4): 1573.
LIU Haijin, GONG Zhijun, LIN Xu, 2021.Geochemical characteristics and genesis of detrital apatites from the surrounding rivers into the Bohai Sea[J].Marine Geology & Quaternary Geology, 41(4): 74-86(in Chinese with English abstract).
LIU Jian, SAITO Y, KONG Xianghuai, et al., 2010.Sedimentary record of environmental evolution off the Yangtze River estuary, East China Sea, during the last-13, 000 years, with special reference to the influence of the Yellow River on the Yangtze River delta during the last 600 years[J].Quaternary Science Reviews, 29(17-18): 2424-2438.
LIU Jian, ZHANG Junqiang, MIAO Xiaodong, et al., 2020.Mineralogy of the core YRD-1101 of the Yellow River Delta: Implications for sediment origin and environmental evolution during the last-1.9 Myr[J].Quaternary International, 537: 79-87.
LU Jian, LI Anchun, HUANG Peng, et al., 2015.Mineral distributions in surface sediments of the western South Yellow Sea:implications for sediment provenance and transportation[J].Chinese Journal of Oceanology and Limnology, 33(2):510-524.
NIE Junsheng, STEVENS T, RITTNER M, et al., 2015.Loess Plateau storage of Northeastern Tibetan Plateau-derived Yellow River sediment[J].Nature Communications, 6(1): 8511.
QIAO Shuqing, SHI Xuefa, WANG Guoqing, et al., 2017.Sediment accumulation and budget in the Bohai Sea, Yellow Sea and East China Sea[J].Marine Geology, 390: 270-281.
RAO Wenbo, MAO Changping, WANG Yigang, et al., 2015.Geochemical constraints on the provenance of surface sediments of radial sand ridges off the Jiangsu coastal zone, East China[J].Marine Geology, 359: 35-49.
RAO Wenbo, MAO Changping, WANG Yigang, et al., 2017.Using Nd-Sr isotopes and rare earth elements to study sediment provenance of the modern radial sand ridges in the southwestern Yellow Sea[J].Applied Geochemistry, 81: 23-35.
SAITO Y, YANG Zhuosheng, HORI K, 2001.The Huanghe (Yellow River) and Changjiang (Yangtze River) deltas: a review on their characteristics, evolution and sediment discharge during the Holocene[J].Geomorphology, 41(2-3): 219-231.
SHANG Yuan, NIAN Xiaomei, ZHANG Weiguo, et al., 2021.Yellow River's contribution to the building of Yangtze Delta during the last 500 years-Evidence from detrital zircon U-Pb geochronology[J].Geophysical Research Letters, 48(14):e2020GL091896.
SHEN Ji, WANG Ying, LI Shuguang, 2014.Common Pb isotope mapping of UHP metamorphic zones in Dabie orogen, Central China: Implication for Pb isotopic structure of subducted continental crust[J].Geochimica et Cosmochimica Acta, 143:115-131.
SU Jinbao, RAO Wenbo, WANG Yigang, et al., 2018.Detrital zircon geochronology of the radial sand ridge system of Jiangsu coast, East China: Implication for sediment provenance[J].Journal of Earth Science, 29: 144-154.
SUN Gaoyuan, LI Shurui, 2023.The provenance of radial sand ridges off the Jiangsu coast, East China: Constraints from the heavy mineral compositions and zircon geochronology (No.EGU23-1706)[R].Copernicus Meetings.
SUNDELL K E, SAYLOR J E, 2017.Unmixing detrital geochronology age distributions[J].Geochemistry, Geophysics, Geosystems, 18(8): 2872-2886.
SUO Yanhui, LI Sanzhong, CAO Xianzhi, et al., 2020.Mesozoic-Cenozoic basin inversion and geodynamics in East China:A review[J].Earth-Science Reviews, 210: 103357.
TANG Qian, YAN Yuru, ZHOU Xin, et al., 2021.Mineral compositions and characteristics of the offshore clastic sediments in Haizhou Bay, Lianyungang City[J].East China Geology, 42(2): 239-245(in Chinese with English abstract).
VERMEESCH P, 2013.Multi-sample comparison of detrital age distributions[J].Chemical Geology, 341: 140-146.
VERMEESCH P, 2018.IsoplotR: A free and open toolbox for geochronology[J].Geoscience Frontiers, 9(5): 1479-1493.
WANG Ying, ZHANG Yong-zhan, ZOU Xin-qing, et al., 2012.The sand ridge field of the South Yellow Sea: Origin by river-sea interaction[J].Marine Geology, 291: 132-146.
WU Fuyuan, YANG Jinhui, WILDE S A, et al., 2007.Detrital zircon U-Pb and Hf isotopic constraints on the crustal evolution of North Korea[J].Precambrian Research, 159(3-4): 155-177.
XU Zhuo, ZHANG Wei, LU Peidong, et al., 2015.Wave-induced flow and its influence on ridge erosion and channel deposition in Lanshayang channel of radial sand ridges[J].Journal of Hydrodynamics, 26(6): 882-893.
YANG Jie, GAO Shan, CHEN Chen, et al., 2009.Episodic crustal growth of North China as revealed by U-Pb age and Hf isotopes of detrital zircons from modern rivers[J].Geochimica et Cosmochimica Acta, 73(9): 2660-2673.
YANG Shouye, JUNG H S, LIM D I, et al., 2003.A review on the provenance discrimination of sediments in the Yellow Sea[J].Earth-Science Reviews, 63(1-2): 93-120.
YANG Shouye, ZHANG Feng, WANG Zhongbo, 2012.Grain size distribution and age population of detrital zircons from the Changjiang (Yangtze) River system, China[J].Chemical Geology, 296-297: 26-38.
YANG Yang, JIA Jianjun, ZHOU Liang, et al., 2020.Quantitative reconstruction of Holocene sediment sources contributing to the central Jiangsu coast, China: New insights into source-to-sink processes[J].Earth Surface Processes and Landforms, 45(11): 2463-2477.
YIN Xiuzhen, LIU Wanzhu, LAN Xianhong, et al., 2007.Detrital Minerals and Geochemistry of the Surface Soft Sediments and Their Provenance, South Yellow Sea, China[J].Journal of Jilin University(Earth Science Edition), 37(3): 491-499(in Chinese with English abstract).
YUE Wei, JIN Bingfu, ZHAO Baocheng, 2018.Transparent heavy minerals and magnetite geochemical composition of the Yangtze River sediments: Implication for provenance evolution of the Yangtze Delta[J].Sedimentary Geology, 364:42-52.
ZHANG Hongfei, ZHONG Zengqiu, GAO Shan, et al., 2004.Pb and Nd isotopic composition of the Jigongshan granite: constraints on crustal structure of Tongbaishan in the middle part of the Qinling-Tongbai-Dabie orogenic belt, Central China[J].Lithos, 73(3-4): 215-227.
ZHANG Jin, WAN Shiming, CLIFT P D, et al., 2019.History of Yellow River and Yangtze River delivering sediment to the Yellow Sea since 3.5 Ma: Tectonic or climate forcing?[J].Quaternary Science Reviews, 216: 74-88.
ZHANG Ligang, 1995.Block-geology of east Asia lithosphere-isotope geochemistry and dynamics of upper mantle, basement and granite[M].Beijing: Science Press: 1-252(in Chinese).
ZHANG Ling, WANG Ping, CHEN Xiyun, et al., 2020.Review in detrital zircon U-Pb geochronology: Data acquisition, analysis and comparison[J].Advances in Earth Science, 35(4):414-430(in Chinese with English abstract).
ZHAO Xitao, GENG Xiushan, ZHANG Jingwen, 1979.Sea Level Chances of the Eastern China during the Past 20 000 Years[J].Acta Oceanologia Sinica, 1(2): 269-281(in Chinese with English abstract).
ZHAO Xitao, HU Daogong, WU Zhonghai, et al., 2017.Reviews on the ressearch of Late Cenozoic geology and environment of the Yangtze River delta area[J].Journal of Geomechanics, 23(1): 1-64(in Chinese with English abstract).
ZHANG Zengjie, DALY J S, YAN Yi, et al., 2022.Cenozoic reorganization of fluvial systems in eastern China: Sedimentary provenance of detrital K-feldspar in Taiwan[J].Chemical Geology, 592: 120740.
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