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1 Tracing the source to sink patterns of river sediments in East Asian marginal seas by using geochemical methods Shouye YANG, Yanguang DOU, Chao LI State Key Laboratory of Marine Geology, Tongji University, Shanghai, China Zhenxia LIU, Hua YU The First Institute of Oceanography, SOA, Qingdao, China International Sediment Trap Workshop and Symposium on Sediment Transport and Sediment on Asian Margins, 23-27 March, 2009 Taiwan
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2 Research background How to identify the river sediments? Case study: — Discriminations of sediment sources of the Okinawa Trough during the late Quaternary Talk outline
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3 Tibet uplift Monsoon evolution & river evolution Key questions: Provenance weathering, Chemical flux, Sediment recycling at present and in the geological past Source to sink
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Changjiang R. Source to sink East China Sea Yellow Sea ? Cheju Strait Japan Sea Okinawa Trough Huanghe R. Huge sediments derived from mega- rivers dominate the sedimentation of the western Pacific marginal seas.
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5 2004.7 primary productivity Asanuma et al., 2005 Freshwater transport from the Changjiang to the Japan Sea could significantly affect the primary production & deep circulation in the Japan Sea. Senjyu, T et al. (2006, senjyu@riam.kyushu-u.ac.jp) Suspended particles?
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6 The S2S pattern of river sediments in the Yellow Sea is very complex and much variable during the late Quaternary, which is a big challenging problem for the paleoenvironmental reconstruction. Yang et al. (2003) Earth-Science Review Unit: 10 8 ton/yr Sediment flux in the Yellow Sea
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7 Potential sediment provenances in the shelf and open sea Siliciclastic sediments: S2S
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8 Sediment samples and analytic methods
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9 Samples from the Changjiang (Yangtze River) (suspended, bed, floodplain) Upper reaches Lower reaches Middle reaches
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10 The first bend of the Changjiang at Shigu Wujiang River Daduhe and Minjiang Rivers NW NE Field work in the Changjiang, 2003-2007
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11 The Upper Reach: Jinshajiang River at Lijiang, Yunnan Province The Lower Reach
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12 Huanghe: Yellow River
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13 Case study: Okinawa Trough Core DGKS9604: Location: west slope of the middle Okinawa Trough Water depth: 766 m Core length: 10.76 m (~30 Cal Ka) Recovery: about 95% Sediment S2S pattern of the Okinawa Trough during the late Quaternary
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14 Sample pre-treatment : <0.063mm fine-grained samples (elements) 1 N HCl leaching experiment (element & Sr-Nd-Pb isotopes) REE and elements : ICP-MS/ES Sr-Nd-Pb isotopes : — TIMS ( modern sediments ) — MC ICP-MS ( Core sediments ) Mineral chemistry (zircon, garnet, apatite, monazite) Analytic methods
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15 Geochemical proxies of sediment provenance discrimination — REE fractionation pattern and parameters including (La/Yb) UCC, (Gd/Yb) UCC, (La/Sm) UCC, δCe, δEu — Ratios of conservative elements such as La/Sc, Th/Sc, Ti/Nb, Cr/Th, Ti/Al….. — Sr-Nd-Pb isotopic systematics — Mineral chemistry of detrital zircon, monazite, Ti-Fe oxides and garnet grains
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16 Research background How to identify the river sediments? Case study: — Discriminations of sediment sources of the Okinawa Trough during the late Quaternary Talk outline
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17 Rare earth elemental compositions in the Changjiang sediments UCC: upper continental crust, T & M, 1985 residual fraction 1N HCl leaching Yalongjiang Jinshajiang Fujiang
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18 The Korean river sediments are relatively more enriched in LREE than Chinese river sediments, suggesting different source rock compositions in their drainage basins. Yang, et al. (2002) EPSL
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19 Characteristic REE parameters and elemental ratios can be treated as reliable geochemical proxies to trace the river sediment sources. Chinese Rivers Yang et al., Earth-Science Review, 2003; Chinese Sci Bull., 2004 Korean rivers
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20 Korean rivers Chinese rivers Korean rivers Chinese rivers Yang et al., Earth-Science Review, 2003; Chinese Sci Bull., 2004 Geochemical proxies for discriminating Chinese and Korean river sediments
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21 Sr-Nd isotopic compositions of the Changjiang suspended sediments Yang et al., Sci in China, 2007
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22 Comparison of Sr-Nd isotopes
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23 Distinct isotopic compositions exist between East Asian river sediments
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24 1N HCl-leached fractions of the river sediments show good discrimination results between Chinese and Korean river end- members. Choi et al. 2007. Marine Chemistry
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25 Detrital zircon grains from the Changjiang river sediments
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26 Mineral chemistry of detrital zircon grains from the Changjiang sediments
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27 Zircon ages of the Changjiang sediments
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28 Monazite age spectrum of the Changjiang sediments
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29 Controls of sedimentary geochemical compositions Provenance rocks character : age, type, outcrop area, weathering rate Chemical fractionation of minerals during chemical weathering Hydrodynamic sorting during transport and deposition : grain size effect, SPM representative Sediment recycling : complex but important Sample treatment : 1 N HCl, residual fraction
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30 Source rocks in the Changjiang drainage basin
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31 Increasing ages Sr isotopic compositions in the source rocks of the Changjiang drainage basin
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32 Nd isotopic compositions in the source rocks of the Changjiang drainage basin
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33 Acidic igneous rocks dominant in the Korean river basins. Different climate regimes result in variable weathering intensities.
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34 Case study Sediment provenances of the middle Okinawa Trough during the last 30 Cal ka Core DGKS9604: Location: west slope of the middle Okinawa Trough Water depth: 766 m Core length: 10.76 m (~30 Cal Ka) Recovery: about 95%
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35 Large changes occur in the deglacial period δ
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36 REE: abrupt changes occur at ca. 8 ka
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37 REE fractionation patterns Tephra layer
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Sr-Nd isotopes abrupt changes occur at 8 ka Unit 2 Unit 1
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39 Different sediment sources Aira caldera data after Arakawa et al. (1998); Volcanic rocks data after Shinjo and Kato (2000) Unit 1: 0~ 7.1 ka Taiwan Source? Unit 2: 8.2~31 ka Changjiang- sediments dominated Dou et al., submitted
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40 ~150 Mt/yr Shuh-Ji Kao, et al., 2005. TAO
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41 Variable sediment sources with time ~ LGM0~7 ka BP
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42 Thanks!
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