Recent Spatial Pattern and Temporal Variation in Sediment Grain Size in the Inshore Area Adjacent to the Yangtze Estuary and Hangzhou Bay
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摘要: 为了研究长江口—杭州湾外近海沉积物粒径的现状和近期变化,于2008年4月在该区域用箱式取样器取得了33个表层样,用震动活塞采样器取得7个柱状样;在室内用激光粒度仪对沉积物样品进行了粒度分析并与历史时期的研究成果进行对比。结果表明,1)表层沉积物总体上呈东粗(砂)西细(泥)的特点,粒径总体上的空间格局与历史时期相似;但砂—泥区界线在研究区北部(长江口和杭州湾外)有向西迁移(蚀退)迹象(西移10~30 km),而在南部(舟山群岛以南)则出现明显向东迁移(淤进)现象(最大超过50 km)。2)当前的表层沉积物形成一条南北连续的泥质带(粒径向南逐渐变细),反映过去存在于舟山群岛以东的最细组分(“黏土”)带不连续现象在表层现已趋于消失。3)表层沉积物粒径趋势分析揭示长江入海泥沙的运移方向主要是向南—东南。4)泥质区柱状沉积物具有粉砂和黏土为主但在垂向上(反映在时间上)有粗细多变的特点(侵蚀区表层沉积物有粗化迹象)。研究认为,长江口—杭州湾邻近海域现代沉积物对流域和沿海重大人类活动有较敏感的响应。
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关键词:
- 沉积物,  /
- 粒度,  /
- 人类活动影响,  /
- 气候变化,  /
- 长江口,  /
- 杭州湾,  /
- 东海
Abstract: Grain size of sediment in littoral area of estuaries is vulnerable to humaninduced changes in riverine sediment supply and coastal hydrodynamics. In recent years, sediment from the Yangtze River to the sea has drastically decreased, which has resulted in erosion in the subaqueous delta. Meanwhile, many coastal engineering structures have been built at the mouth of the Hangzhou Bay. Less has been known of the sedimentary impacts in the inshore area adjacent to the Yangtze Estuary and Hangzhou Bay. To examine the spatial pattern of and recent changes in sediment grain size in the littoral area off the Yangtze Estuary and Hangzhou Bay, we obtained 33 surface sediment samples using a box sampler and 7 sediment cores (1.4 to 4.8 m in length) using a vibro piston corer in April 2008. These samples were analyzed for grain size parameters in the laboratory using a laser particle size analyzer. Comparison of grain size was made between the present result and results of historical periods. The results include: 1) In agreement with the results of historical periods, the present study showed an overall spatial pattern of coarse sediment in the east (sand) and finegrained sediment in the west (mud). Nevertheless, in contrast to the historical results, the borderline between the sand and mud areas has retreated landward (or westward) for 10 to 30 km in the northern portion (off the Yangtze Estuary and the main Hangzhou Bay) whereas it has advanced seaward (or eastward) for up to 50 km in the southern area (south of the Zhoushan Archipelago). 2) In comparison with the results of historical periods that the longshore distributed mud (clay) zone was disconnected at the east of the Zhoushan Archipelago, the spatial pattern of surface sediment grain size in the present study indicated a consecutive longshore mud zone, which suggests the historical disconnection of the longshore mud (clay) zone at the east of the Zhoushan Archipelago has disappeared at least for surface sediment. This change was mainly attributed to the construction of large bridges across the channels between the islands of the Zhoushan Archipelago. The piers of these bridges were considered to have reduced the water and sediment exchange between the Hangzhou Bay and the East China Sea and weakened the currents at the previous disconnecting area of the longshore mud (clay) zone. 3) The results of grain size trend analysis of surface sediment along the longshore mud zone support the hypothesis that the sediments derived from the Yangtze River have been mainly transported southward and southeastward.4) The core sediments, sampled successfully in the mud zone (we failed to sample core sediment in the sand zone), are mainly composed of silt and clay. Most of the cores show significant vertical fluctuations of grain size. These vertical fluctuations seem to reflect historical events of climate changes which have resulted in longterm changes in riverine sediment supply and ocean hydrodynamics. The surface sediment of the cores sampled in the recent erosion area (recognized by other authors based on bathymetric comparison) indicates a coarsening trend, which is considered to have resulted from the recent drastic decrease in riverine sediment supply. We conclude that the sediments in the littoral area of the Yangtze Estuary and Hangzhou Bay are susceptible to anthropogenic and climate impacts both from the catchment and the coastal region.-
Key words:
- sediment /
- grain size /
- anthropogenic impact /
- climate change /
- Yangtze Estuary /
- Hangzhou Bay /
- East China Sea /
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