Abstract
Abstract. One reason that small mountainous rivers discharge disproportionately large quantities of sediment to the coastal ocean is because they are particularly susceptible to short-term episodic events, such as earthquakes and floods. The impact of such events, both temporally and spatially, however, has seldom been monitored. Here we report on the results of probably the most thorough monitoring of a flood ever undertaken: the effect of Typhoon Mindulle (2–4 July 2004) on the character of the water transported by the Choshui River, central western Taiwan, during which 74 million tons of sediment were discharged to the adjacent Taiwan Strait. Results from a series of 113 water samples obtained between 2nd and 4th July from five stations along the middle and lower reaches the river indicate that more than half of the suspended sediment was generated in nearby mountains before the river reached its flood plain. While the concentration of dissolved solids remained more or less constant along the mainstem of the river, the composition changed considerably, reflecting the imprints of local geology. An order-of-magnitude downstream increase in NO3− concentrations reflects the rapid draining of the Tsaoling landslide lake on the Chingshui River, as the 1999 earthquake-generated landslide dam was breached.
Highlights
The concentration and magnitude of fluvial sediment discharge to the coastal ocean is controlled by numerous geological and environmental factors, such as drainage basin area, basin relief, source-rock lithology, runoff and human influences (e.g. Ahnert, 1970; Wilson, 1973; Syvitski and Milliman, 2007; Milliman and Farnsworth, 2011)
Rivers whose headwaters are in mountainous terrain, small mountainous rivers, tend to have disproportionately greater sediment discharge than larger mountainous rivers or small rivers draining lower elevations or older lithologies (Milliman and Syvitski, 1992; Milliman and Farnsworth, 2011, their Fig. 2.19)
Hovius et al (1997) and Dadson et al (2003, 2004), for example, concluded that earthquake-initiated and typhoon-rain-induced hillslope wasting account for most of the sediment discharged by Taiwanese rivers
Summary
The concentration and magnitude of fluvial sediment discharge to the coastal ocean is controlled by numerous geological and environmental factors, such as drainage basin area, basin relief, source-rock lithology, runoff and human influences (e.g. Ahnert, 1970; Wilson, 1973; Syvitski and Milliman, 2007; Milliman and Farnsworth, 2011). Mindulle-generated discharge remained high (>1000 m3/s) until 7th July (Fig. 3), water samples were only taken until about noon of the 4th.
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