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    题名: Palaeoceanographic change in the northeastern South China Sea during the last 15000 years
    作者: KUO-YEN WEI
    MENG-YANG LEE
    WEIWU DUAN
    CHAOYUN CHEN
    CHUNG-HO WANG
    李孟陽
    汪中和
    贡献者: 臺北市立教育大學自然科學系
    关键词: palaeoceanography
    South China Sea
    deglaciation
    Holocene
    日期: 1998
    上传时间: 2009-07-31 11:27:45 (UTC+8)
    摘要: The sedimentary succession of piston core RC26-16, dated by 14C accelerator
    mass spectrometry, provides a nearly continuous palaeoceanographic record of the northeastern
    South China Sea for the last 15 000 yr. Planktic foraminiferal assemblages indicate that winter
    sea-surface temperatures (SSTs) rose from 18°C to about 24°C from the last glacial to the
    Holocene. A short-lived cooling of 1°C in winter temperature centred at about 11 000 14C yr
    ago may reflect the Younger Dryas cooling event in this area. Summer SSTs have remained
    between 27°C and 29°C throughout the record. The temperature difference between summer
    and winter was about ca. 9°C during the last glacial, much higher than the Holocene value of
    ca. 5°C. During the late Holocene a short-lived cooling event occurred at about 4000 14C yr
    ago. Oxygen and carbon isotopic gradients between surface (0–50 m) and subsurface (50–100
    m) waters were smaller during the last glacial than those in the Holocene. The fluctuation in
    the isotopic gradients are caused most likely by changes in upwelling intensity. Smaller gradients
    indicate stronger upwelling during the glacial winter monsoon. The fauna-derived estimates of
    nutrient content of the surface waters indicate that the upwelling induced higher fertility and
    biological productivity during the glacial. The winter monsoon became weaker during the
    Holocene. The carbonate compensation depth and foraminiferal lysocline were shallower during
    the Holocene, except for a short-lived deepening at about 5000 14C yr ago. A preservation
    peak of planktic foraminifera and calcium carbonate occurred between 13400 and 12 000 14C
    yr ago, synchronous to the global preservation event of Termination I.
    關聯: JOURNAL OF QUATERNARY SCIENCE , v13 (1), p.55–64
    显示于类别:[應用物理暨化學學系暨碩士班] 期刊論文

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