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W1497187210 abstract "[1] The Yangtze is the largest river in Asia and its water composition reflects the activities of about 400 Mio people in its catchment. Its chemical loads have a large impact on the biogeochemistry of the East China Sea. We discuss and quantify the annual dynamics of major ions, nutrients, and trace elements from samples collected monthly at Datong Station from May 2009 to June 2010. The Yangtze today carries 192 × 106 tons of total dissolved solids annually to the East China Sea, which is an increase of 25% compared to the average of 1958–1990. While the loads of dissolved silica (SiO2), dissolved inorganic carbon (DIC), Ca2+ and Mg2+compared well with the long-term averages since the 1950s, loads of Na+, Cl−, SO42−, have tripled since 1958–1990. The increase of SO42− is attributed to the burning of coal in the catchment, and 18% of the F− load is estimated to originate from this source. The increase of Na+ and Cl−loads may be anthropogenic as well. The load of dissolved inorganic nitrogen (DIN) has increased 15 fold since the early measurements around 1970 and amounts to 1.6 Mt-N/yr today. The particulate concentrations of the typical anthropogenic trace metals Cd, Cr, Cu, Ni, Pb, and Zn showed enrichment factors between 0.7 – 7 compared to the natural background. Their annual peak concentrations all exceeded the quality targets recommended by the EC up to two times. However, the load of trace elements at Datong decreased by 73–86% (As: 50%) in the past ten years." @default.
W1497187210 created "2016-06-24" @default.
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W1497187210 creator A5057419268 @default.
W1497187210 creator A5057617939 @default.
W1497187210 creator A5090932841 @default.
W1497187210 date "2012-05-31" @default.
W1497187210 modified "2023-09-26" @default.
W1497187210 title "The geochemistry of the Yangtze River: Seasonality of concentrations and temporal trends of chemical loads" @default.
W1497187210 cites W1511829535 @default.
W1497187210 cites W1533743728 @default.
W1497187210 cites W1540827267 @default.
W1497187210 cites W1766981867 @default.
W1497187210 cites W1925009354 @default.
W1497187210 cites W1967314147 @default.
W1497187210 cites W1969592506 @default.
W1497187210 cites W1974159434 @default.
W1497187210 cites W1974696143 @default.
W1497187210 cites W1977493699 @default.
W1497187210 cites W1988250073 @default.
W1497187210 cites W1988378253 @default.
W1497187210 cites W1993806832 @default.
W1497187210 cites W1994646948 @default.
W1497187210 cites W1994661217 @default.
W1497187210 cites W2001221506 @default.
W1497187210 cites W2003087408 @default.
W1497187210 cites W2006212120 @default.
W1497187210 cites W2006806480 @default.
W1497187210 cites W2009942095 @default.
W1497187210 cites W2014015087 @default.
W1497187210 cites W2015027435 @default.
W1497187210 cites W2021076835 @default.
W1497187210 cites W2021786932 @default.
W1497187210 cites W2034162040 @default.
W1497187210 cites W2036538049 @default.
W1497187210 cites W2038546762 @default.
W1497187210 cites W2042642867 @default.
W1497187210 cites W2046571667 @default.
W1497187210 cites W2048547517 @default.
W1497187210 cites W2051648535 @default.
W1497187210 cites W2051657292 @default.
W1497187210 cites W2055387139 @default.
W1497187210 cites W2055445016 @default.
W1497187210 cites W2057505740 @default.
W1497187210 cites W2065894695 @default.
W1497187210 cites W2066954492 @default.
W1497187210 cites W2067233462 @default.
W1497187210 cites W2071580378 @default.
W1497187210 cites W2071794766 @default.
W1497187210 cites W2075540447 @default.
W1497187210 cites W2077326648 @default.
W1497187210 cites W2077528559 @default.
W1497187210 cites W2078320940 @default.
W1497187210 cites W2079335692 @default.
W1497187210 cites W2082889751 @default.
W1497187210 cites W2091974009 @default.
W1497187210 cites W2093227429 @default.
W1497187210 cites W2093880921 @default.
W1497187210 cites W2094033858 @default.
W1497187210 cites W2095853657 @default.
W1497187210 cites W2100148479 @default.
W1497187210 cites W2102029231 @default.
W1497187210 cites W2111611099 @default.
W1497187210 cites W2121748480 @default.
W1497187210 cites W2128706930 @default.
W1497187210 cites W2133606548 @default.
W1497187210 cites W2135547714 @default.
W1497187210 cites W2139219090 @default.
W1497187210 cites W2148169139 @default.
W1497187210 cites W2151061387 @default.
W1497187210 cites W2154575170 @default.
W1497187210 cites W2156342257 @default.
W1497187210 cites W2165419020 @default.
W1497187210 cites W2168649638 @default.
W1497187210 cites W2306220120 @default.
W1497187210 cites W2332590342 @default.
W1497187210 cites W2332997710 @default.
W1497187210 doi "https://doi.org/10.1029/2011gb004273" @default.
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