Detrital Zircon Geochronology of the Radial Sand Ridge System of Jiangsu Coast, East China: Implication for Sediment Provenance

Jinbao Su, Wenbo Rao, Yigang Wang, Changping Mao

Journal of Earth Science ›› 2018, Vol. 29 ›› Issue (1) : 144-154.

Journal of Earth Science ›› 2018, Vol. 29 ›› Issue (1) : 144-154. DOI: 10.1007/s12583-017-0769-x
Mineralogy and Petrogeochemistry

Detrital Zircon Geochronology of the Radial Sand Ridge System of Jiangsu Coast, East China: Implication for Sediment Provenance

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Abstract

The radial sand ridge system (RSRS) located at Jiangsu coast of China attracts much attention on its origin and mechanic of formation for its special structure and potential land resource. Due to complicated hydrodynamic condition, the Jiangsu RSRS is a hot debated on its potential sources, Yangtze River or Yellow River? We collected ten sand samples from surface sediments along the west coast of Bohai Sea and Yellow Sea from the modern Yellow River estuary to Yangtze River estuary in summer, 2013. The samples are analyzed by method of detrital zircon age for source identification of the RSRS sediments. The U-Pb age spectra of detrital zircon grains of the samples show a wide range from Cenozoic to Late Archean with several age peaks. Comparing the age spectra between the Yangtze River and the Yellow River, the detrital zircons have younger age (<100 Ma) group in the Yangtze River. These age distribution of the Jiangsu coastal RSRS sediments are similar to that of the Yangtze River, but different from the Yellow River. The samples located adjacent to the old Yellow River Delta show more wide-range age distribution, implying a compounded origination from the both rivers. Based on these findings it is proposed that, contrary to common opinion, the main sediment source of the Jiangsu RSRS is the Yangtze River, rather than the Yellow River. By implication, there should be evidence of hydrodynamic mechanics of oceanic currents and tidal motion. This aspect awaits confirmation in future research.

Keywords

Yellow Sea / Jiangsu coast / radial sand ridge / zircon geochronology / sediment provenance

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Jinbao Su, Wenbo Rao, Yigang Wang, Changping Mao. Detrital Zircon Geochronology of the Radial Sand Ridge System of Jiangsu Coast, East China: Implication for Sediment Provenance. Journal of Earth Science, 2018, 29(1): 144‒154 https://doi.org/10.1007/s12583-017-0769-x

References

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Andersen T. Detrital Zircons as Tracers of Sedimentary Provenance: Limiting Conditions from Statistics and Numerical Simulation. Chemical Geology, 2005, 216(3/4): 249-270.
CrossRef Google scholar
Anderson D. L. New Theory of the Earth, 2007
CrossRef Google scholar
Anthony E. J. Beach-Ridge Development and Sediment Supply: Examples from West Africa. Marine Geology, 1995, 129(1/2): 175-186.
CrossRef Google scholar
Barnard P. L., Foxgrover A. C., Elias E. P. L., . Integration of Bed Characteristics, Geochemical Tracers, Current Measurements, and Numerical Modeling for Assessing the Provenance of Beach Sand in the San Francisco Bay Coastal System. Marine Geology, 2013, 336: 120-145.
CrossRef Google scholar
Beardsley R. C., Limeburner R., Yu H., . Discharge of the Changjiang (Yangtze River) into the East China Sea. Continental Shelf Research, 1985, 4(1/2): 57-76.
CrossRef Google scholar
Belousova E., Griffin W., O'Reilly S. Y., . Igneous Zircon: Trace Element Composition as an Indicator of Source Rock Type. Contributions to Mineralogy and Petrology, 2002, 143(5): 602-622.
CrossRef Google scholar
Bian C. W., Mao X. Y., Jiang W. S., . ADV-Based Estimates of Sediment Settling Velocity on the Shelf of the Yellow and East China Seas: Evidence of Marked Seasonal and Intra-Tidal Variations. Geo-Marine Letters, 2014, 35(1): 53-60.
CrossRef Google scholar
Cai Z. R., Xia B., B. F., . Initial Rifting Process and Dynamics Mechanism of Huaguang Sag: Evidence from a Numerical Modeling Method. Journal of Earth Science, 2014, 26(3): 399-406.
CrossRef Google scholar
Cawood P. A., Nemchin A. A., Freeman M., . Linking Source and Sedimentary Basin: Detrital Zircon Record of Sediment Flux along a Modern River System and Implications for Provenance Studies. Earth and Planetary Science Letters, 2003, 210(1/2): 259-268.
CrossRef Google scholar
Chang P. H., Isobe A. A Numerical Study on the Changjiang Diluted Water in the Yellow and East China Seas. Journal of Geophysical Research, 2003, 108 C9 3299
CrossRef Google scholar
Chen C. T. A. Chemical and Physical Fronts in the Bohai, Yellow and East China Seas. Journal of Marine Systems, 2009, 78(3): 394-410.
CrossRef Google scholar
Chen Q. Q., Zhu Y. R. Holocene Evolution of Bottom Sediment Distribution on the Continental Shelves of the Bohai Sea, Yellow Sea and East China Sea. Sedimentary Geology, 2012, 273/274: 58-72.
CrossRef Google scholar
Choi T., Lee Y. I., Orihashi Y., . The Provenance of the Southeastern Yellow Sea Sediments Constrained by Detrital Zircon U-Pb Age. Marine Geology, 2013, 337: 182-194.
CrossRef Google scholar
Chough S. K., Kim J. W., Lee S. H., . High-Resolution Acoustic Characteristics of Epicontinental Sea Deposits, Central-Eastern Yellow Sea. Marine Geology, 2002, 188(3/4): 317-331.
CrossRef Google scholar
Chough S. K., Lee H. J., Chun S. S., . Depositional Processes of Late Quaternary Sediments in the Yellow Sea: A Review. Geosciences Journal, 2004, 8(2): 211-264.
CrossRef Google scholar
Corfu F., Hanchar J., Hoskin P., . Atlas of Zircon Textures. Reviews in Mineralogy and Geochemistry, 2003, 53: 469-500.
CrossRef Google scholar
Dong L. X., Guan W. B., Chen Q., . Sediment Transport in the Yellow Sea and East China Sea. Estuarine, Coastal and Shelf Science, 2011, 93(3): 248-258.
CrossRef Google scholar
Dong L. X., Su J. L., Wang K. S. The Tidal Current Field in Bohai Sea and Yellow Sea and Its Relationship with Sediment Transport. Acta Oceanologica Sinica, 1989, 11(1): 102-114.
Emery K. O. Relict Sediments on Continental Shelves of World. AAPG Bulletin, 1968, 52: 445-464.
Garzanti E., Andò S., France-Lanord C., . Mineralogical and Chemical Variability of Fluvial Sediments1. Bedload Sand (Ganga-Brahmaputra, Bangladesh). Earth and Planetary Science Letters, 2010, 299(3/4): 368-381.
CrossRef Google scholar
Garzanti E., Andò S., Vezzoli G. Grain-Size Dependence of Sediment Composition and Environmental Bias in Provenance Studies. Earth and Planetary Science Letters, 2009, 277(3/4): 422-432.
CrossRef Google scholar
Gehrels, G., 2011. Detrital Zircon U-Pb Geochronology: Current Methods and New Opportunities. In: Busby, C., Azor, A., eds., Tectonics of Sedimentary Basins: Recent Advances. John Wiley & Sons Ltd., Chichester. 45–62. https://doi.org/10.1002/9781444347166.ch2
Giosan L., Donnelly J. P., Vespremeanu E., . River Delta Morphodynamics: Examples from the Danube Delta, 2005.
He M. Y., Zheng H. B., Clift P. D. Zircon U-Pb Geochronology and Hf Isotope Data from the Yangtze River Sands: Implications for Major Magmatic Events and Crustal Evolution in Central China. Chemical Geology, 2013, 360/361: 186-203.
CrossRef Google scholar
Hu B. Q., Li G. G., Li J., . Provenance and Climate Change Inferred from Sr-Nd-Pb Isotopes of Late Quaternary Sediments in the Huanghe (Yellow River) Delta, China. Quaternary Research, 2012, 78(3): 561-571.
CrossRef Google scholar
Hu, D., Li, Y., 1993. Study of Ocean Circulation. In: Tseng, C. K., Zhou, H. O., Li, B. C., eds., Marine Science Study and Its Prospect in China. Qingdao Publishing House, Qingdao. 513–516 (in Chinese)
Huthnance J. M. On one Mechanism Forming Linear Sand Banks. Estuarine, Coastal and Shelf Science, 1982, 14(1): 79-99.
CrossRef Google scholar
Huthnance J. M. On the Formation of Sand Banks of Finite Extent. Estuarine, Coastal and Shelf Science, 1982, 15(3): 277-299.
CrossRef Google scholar
Jin J. H., Chough S. K. Partitioning of Transgressive Deposits in the Southeastern Yellow Sea: A Sequence Stratigraphic Interpretation. Marine Geology, 1998, 149(1/2/3/4): 79-92.
CrossRef Google scholar
Jordan T. H. Structure and Formation of the Continental Tectosphere. Journal of Petrology, 1988, 11-37.
Kim G., Yang H. S., Church T. M. Geochemistry of Alkaline Earth Elements (Mg, Ca, Sr, Ba) in the Surface Sediments of the Yellow Sea.. Chemical Geology, 1999, 153(1/2/3/4): 1-10.
CrossRef Google scholar
Lawrence R. L., Cox R., Mapes R. W., . Hydrodynamic Fractionation of Zircon Age Populations. Geological Society of America Bulletin, 2010, 123(1/2): 295-305.
Lee S. H., Shinn Y. J., Lee K. E., . Depositional Development of an Isolated Mound and Adjacent Area in the Southern Yellow Sea during the Last Postglacial Sea-Level Rise. Marine Geology, 2009, 265(1/2): 19-30.
CrossRef Google scholar
Li C. X., Zhang J. Q., Fan D. D., . Holocene Regression and the Tidal Radial Sand Ridge System Formation in the Jiangsu Coastal Zone, East China. Marine Geology, 2001, 173(1/2/3/4): 97-120.
CrossRef Google scholar
Li M. Z., King E. L. Multibeam Bathymetric Investigations of the Morphology of Sand Ridges and Associated Bedforms and Their Relation to Storm Processes, Sable Island Bank, Scotian Shelf. Marine Geology, 2007, 243(1/2/3/4): 200-228.
CrossRef Google scholar
Li J. H., Zhang Y. Q., Dong S. W., . The Hengshan Low-Angle Normal Fault Zone: Structural and Geochronological Constraints on the Late Mesozoic Crustal Extension in South China. Tectonophysics, 2013, 606: 97-115.
CrossRef Google scholar
Lim D., Choi J. Y., Shin H. H., . Multielement Geochemistry of Offshore Sediments in the Southeastern Yellow Sea and Implications for Sediment Origin and Dispersal. Quaternary International, 2013, 298: 196-206.
CrossRef Google scholar
Lim D. I., Jung H. S., Choi J. Y., . Geochemical Compositions of River and Shelf Sediments in the Yellow Sea: Grain-Size Normalization and Sediment Provenance. Continental Shelf Research, 2006, 26(1): 15-24.
CrossRef Google scholar
Liu J. P., Milliman J. D., Gao S. The Shandong Mud Wedge and Post-Glacial Sediment Accumulation in the Yellow Sea. Geo-Marine Letters, 2001, 21(4): 212-218.
CrossRef Google scholar
Liu Z. X., Xia D. X., Berne S., . Tidal Deposition Systems of China’s Continental Shelf, with Special Reference to the Eastern Bohai Sea. Marine Geology, 1998, 145(3/4): 225-253.
Ludwig K. User’s Manual for Isoplot/Ex Version 3.00—A Geochronology Toolkit for Microsoft Excel, No. 4. Berkeley Geochronological Center, Special Publication, Berkeley, 2003.
Martin J. M., Zhang J., Shi M. C., . Actual Flux of the Huanghe (Yellow River) Sediment to the Western Pacific Ocean. Netherlands Journal of Sea Research, 1993, 31(3): 243-254.
CrossRef Google scholar
Morton A., Chenery S. Detrital Rutile Geochemistry and Thermometry as Guides to Provenance of Jurassic–Paleocene Sandstones of the Norwegian Sea. Journal of Sedimentary Research, 2009, 79(7): 540-553.
CrossRef Google scholar
Morton A. C., Whitham A. G., Fanning C. M. Provenance of Late Cretaceous to Paleocene Submarine Fan Sandstones in the Norwegian Sea: Integration of Heavy Mineral, Mineral Chemical and Zircon Age Data. Sedimentary Geology, 2005, 182(1/2/3/4): 3-28.
CrossRef Google scholar
Morton A. C., Hallsworth C. Identifying Provenance-Specific Features of Detrital Heavy Mineral Assemblages in Sandstones. Sedimentary Geology, 1994, 90(3/4): 241-256.
CrossRef Google scholar
Park S. C., Lee H. H., Han H. S., . Evolution of Late Quaternary Mud Deposits and Recent Sediment Budget in the Southeastern Yellow Sea. Marine Geology, 2000, 170(3/4): 271-288.
CrossRef Google scholar
Rao W. B., Mao C. P., Wang Y. G., . Geochemical Constraints on the Provenance of Surface Sediments of Radial Sand Ridges off the Jiangsu Coastal Zone, East China. Marine Geology, 2015, 359: 35-49.
CrossRef Google scholar
Ren M. E., Shi Y. L. Sediment Discharge of the Yellow River (China) and Its Effect on the Sedimentation of the Bohai and the Yellow Sea. Continental Shelf Research, 1986, 6(6): 785-810.
CrossRef Google scholar
Saito Y., Yang Z. S., Hori K. The Huanghe (Yellow River) and Changjiang (Yangtze River) Deltas: A Review on their Characteristics, Evolution and Sediment Discharge during the Holocene. Geomorphology, 2001, 41(2/3): 219-231.
CrossRef Google scholar
Schubel, J., Shen, H., Park, M., 1984. A Comparison of Some Characteristic Sedimentation Processes of Estuaries Entering the Yellow Sea. In: Park, Y. A., Pilkey, O. H., Kim, S. W., eds., Marine Geology and Physical Processes of the Yellow Sea. Proc. Korea-U.S. Seminar and Workshop, Seoul, Korea. 286–308
Shi W., Wang M. H. Satellite Observations of the Seasonal Sediment Plume in Central East China Sea. Journal of Marine Systems, 2010, 82(4): 280-285.
CrossRef Google scholar
Sternberg R. W., Larsen L. H., Miao Y. T. Tidally Driven Sediment Transport on the East China Sea Continental Shelf. Continental Shelf Research, 1985, 4(1/2): 105-120.
CrossRef Google scholar
Su J. B., Dong S. W., Zhang Y. Q., . Detrital Zircon Geochronology of Pre-Cretaceous Strata: Tectonic Implications for the Jiangnan Orogen, South China. Geological Magazine, 2014, 151(6): 975-995.
CrossRef Google scholar
Su J. B., Zhang Y. Q., Dong S. W., . Geochronology and Hf Isotopes of Granite Gravel from Fanjingshan, South China: Implication for the Precambrian Tectonic Evolution of Western Jiangnan Orogen. Journal of Earth Science, 2014, 25(4): 619-629.
CrossRef Google scholar
Su J. B., Zhu W. B., Chen J., . Cenozoic Inversion of the East China Sea Shelf Basin: Implications for Reconstructing Cenozoic Tectonics of Eastern China. International Geology Review, 2014, 56(12): 1541-1555.
CrossRef Google scholar
Su J. B., Zhu W. B., Chen J., . Wide Rift Model in Bohai Bay Basin: Insight into the Destruction of the North China Craton. International Geology Review, 2014, 56(5): 537-554.
CrossRef Google scholar
Su J. B., Dong S. W., Zhang Y. Q., . Apatite Fission Track Geochronology of the Southern Hunan Province Across the Shi-Hang Belt: Insights into the Cenozoic Dynamic Topography of South China. International Geology Review, 2017, 59(8): 981-995.
CrossRef Google scholar
Tanner W. F. The Beach: Where is the “River of Sand”?. Journal of Coastal Research, 1987, 3(3): 377-386.
Tanner W. F. An 8 000-Year Record of Sea-Level Change from Grain-Size Parameters: Data from Beach Ridges in Denmark. The Holocene, 1993, 3(3): 220-231.
CrossRef Google scholar
Taylor M., Stone G. W. Beach-Ridges: A Review. Journal of Coastal Research, 1996, 12(3): 612-621.
Uehara K., Saito Y. Late Quaternary Evolution of the Yellow/East China Sea Tidal Regime and Its Impacts on Sediments Dispersal and Seafloor Morphology. Sedimentary Geology, 2003, 162(1/2): 25-38.
CrossRef Google scholar
Wang Y., Zhang Y. Z., Zou X. Q., . The Sand Ridge Field of the South Yellow Sea: Origin by River-Sea Interaction. Marine Geology, 2012, 291–294: 132-146.
CrossRef Google scholar
Wang Y., Zhu D. K., You K. Y., . Evolution of Radiative Sand Ridge Field of the South Yellow Sea and Its Sedimentary Characteristics. Science in China Series D: Earth Sciences, 1999, 42(1): 97-112.
CrossRef Google scholar
Wu F. Y., Walker R. J., Yang Y. H., . The Chemical-Temporal Evolution of Lithospheric Mantle Underlying the North China Craton. Geochimica et Cosmochimica Acta, 2006, 70(19): 5013-5034.
CrossRef Google scholar
Wu F. Y., Yang Y. H., Xie L. W., . Hf Isotopic Compositions of the Standard Zircons and Baddeleyites Used in U-Pb Geochronology. Chemical Geology, 2006, 234(1/2): 105-126.
CrossRef Google scholar
Wu H., Shen J., Zhu J. R., . Characteristics of the Changjiang Plume and Its Extension along the Jiangsu Coast. Continental Shelf Research, 2014, 76: 108-123.
CrossRef Google scholar
Wu Y., Zhang J., Mi T. Z., . Occurrence of N-Alkanes and Polycyclic Aromatic Hydrocarbons in the Core Sediments of the Yellow Sea. Marine Chemistry, 2001, 76(1/2): 1-15.
CrossRef Google scholar
Xu Z. K., Lim D., Choi J., . Rare Earth Elements in Bottom Sediments of Major Rivers around the Yellow Sea: Implications for Sediment Provenance. Geo-Marine Letters, 2009, 29(5): 291-300.
CrossRef Google scholar
Yang C. S. Active, Moribund and Buried Tidal Sand Ridges in the East China Sea and the Southern Yellow Sea. Marine Geology, 1989, 88(1/2): 97-116.
CrossRef Google scholar
Yang J., Gao S., Chen C., . Episodic Crustal Growth of North China as Revealed by U-Pb Age and Hf Isotopes of Detrital Zircons from Modern Rivers. Geochimica et Cosmochimica Acta, 2009, 73(9): 2660-2673.
CrossRef Google scholar
Yang S. Y., Li C. X., Jung H. S., . Discrimination of Geochemical Compositions between the Changjiang and the Huanghe Sediments and Its Application for the Identification of Sediment Source in the Jiangsu Coastal Plain, China. Marine Geology, 2002, 186(3/4): 229-241.
CrossRef Google scholar
Yang S. Y., Youn J. S. Geochemical Compositions and Provenance Discrimination of the Central South Yellow Sea Sediments. Marine Geology, 2007, 243(1/2/3/4): 229-241.
CrossRef Google scholar
Yang S. Y., Jung H. S., Lim D. I., . A Review on the Provenance Discrimination of Sediments in the Yellow Sea. Earth-Science Reviews, 2003, 63(1/2): 93-120.
CrossRef Google scholar
Yang S. Y., Zhang F., Wang Z. B. Grain Size Distribution and Age Population of Detrital Zircons from the Changjiang (Yangtze) River System, China. Chemical Geology, 2012, 296/297: 26-38.
CrossRef Google scholar
Yuan D. L., Zhu J. R., Li C. Y., . Cross-Shelf Circulation in the Yellow and East China Seas Indicated by MODIS Satellite Observations. Journal of Marine Systems, 2008, 70(1/2): 134-149.
CrossRef Google scholar
Yuan H. L., Gao S., Dai M. N., . Simultaneous Determinations of U-Pb Age, Hf Isotopes and Trace Element Compositions of Zircon by Excimer Laser-Ablation Quadrupole and Multiple-Collector ICP-MS. Chemical Geology, 2008, 247(1/2): 100-118.
CrossRef Google scholar
Zhang D. Tidal Current Formation—Storm History—Tidal Current Reform: Explanation the Dynamic Mechnizm of Radiating Sand Ridges of the Yellow Sea. Science in China Series D: Earth Sciences, 1998, 28(5): 394-402.
Zhang R., Chen C. Evolution of Sand Bodies in Jiangsu Offshore Zone and Prospect of “Tiaozhimud” Advancing to Land, 1992.
Zhu D., An Z. Formation and Evolution of Radial Sand Ridges in Jiangsu Offshore Zones, 1993.
Zhu Y., Chang R. Preliminary Study of the Dynamic Origin of the Distribution Pattern of Bottom Sediments on the Continental Shelves of the Bohai Sea, Yellow Sea and East China Sea. Estuarine, Coastal and Shelf Science, 2000, 51(5): 663-680.
CrossRef Google scholar
Zhu Y. R., Chen Q. Q. On the Origin of the Radial Sand Ridges in the Southern Yellow Sea: Results from the Modeling of the Paleoradial Tidal Current Fields off the Paleo-Yangtze River Estuary and Northern Jiangsu Coast. Journal of Coastal Research, 2005, 216: 1245-1256.
CrossRef Google scholar

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