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    Please use this identifier to cite or link to this item: http://utaipeir.lib.utaipei.edu.tw/dspace/handle/987654321/2616


    Title: A novel method for tracing coastal water masses using Sr/Ca ratios and salinity in Nanwan Bay, southern Taiwan
    Authors: Chuan-Chou Shen
    Kon-Kee Liu
    Meng-Yang Lee
    Typhoon Lee
    Chung-Ho Wang
    Hung-Jen Lee
    李孟陽
    李太楓
    汪中和
    李宏仁
    Contributors: 臺北市立教育大學自然科學系
    Keywords: coastal waters
    tracers
    Sr/Ca
    upwelling
    Nanwan Bay
    Taiwan
    Date: 2005
    Issue Date: 2009-07-31 10:06:28 (UTC+8)
    Abstract: A new method using two tracers, namely, the high-precision Sr/Ca ratio and salinity, has been successfully applied to quantitative determination of mixing proportions of freshwater, intruding surface seawater and upwelled water in a semi-enclosed bay, Nanwan Bay, southern Taiwan, where strong upwelling is induced by tidal forcing. The Sr/Ca ratio of the coastal water is essentially determined by the mixing ratio of the offshore surface water and the upwelled water, which usually have different Sr/Ca ratios. On the other hand, variability of coastal water salinity is strongly influenced by fresh water input. A Sr/Ca-salinity (Sr/Ca-S) diagram can thus be used to decipher the endmember contributions. During the 1994 dry season it was found that the Nanwan water was composed mainly of two components: 75.0% upwelled water from depths of 100–200 m offshore, and 25.0% offshore surface water. In the wet season an additional 2.0–2.5% fresh water, primarily from rainfall and surface runoff, was added to the bay. Validity of this model is confirmed by the agreement between the observed δ18O value of the bay water and that calculated from model-derived mixing proportions using the endmember compositions. Once the mixing proportions were determined, the freshwater input rate provided a scaling factor for estimating the turnover rate of the bay water. The case study has thus demonstrated that the Sr/Ca-S relationship may serve as a novel tool for distinguishing different water masses and assessing the upwelling strength in a coastal environment.
    Relation: Estuarine, Coastal and Shelf Science, V65(1-2), P.135-142
    Appears in Collections:[Department of Applied Physics and Chemistry] Periodical Articles

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