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Introducing Large Rivers. Avijit GuptaЧитать онлайн книгу.

Introducing Large Rivers - Avijit Gupta


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South America to its passive edge – from the Andes and its forelands in the west to the low floodplains and deltas of the two rivers on the east coast. The sediment is transferred between the source and the sink in steps, being alternatively transferred down-channel and stored in the valley for years in extensive alluvial plains, huge floodplains, or channel bars.

      Examples of downstream sediment transfer are common. The Rio Madeira deposits a considerable amount of sediment as it emerges from the Andes Mountains to the lowlands of the Amazon. Some of this sediment is stored in the river but eventually moves downstream (Guyot et al. 1996; Dunne et al. 1998). About half of the sediment eroded from the Andes is deposited in the Andean foreland (Aalto et al. 2006) before removal. Before the Three Gorges Dam was closed, the Changjiang used to deposit nearly 100 million tonnes of sediment annually on floodplains and in lakes and stream channels between Yichang and Datong (Xu et al. 2007). The sediment was likely to have been derived from upstream mountains.

      As the sediment emerges from the highlands, individual grains are as likely to be stored in the valleys of many large rivers as to travel downstream. When stored, they may remain at rest for a sufficiently long enough time to decompose in situ to a partly dissolved state which is removed by the river as solution load. The rest of the sediment remains in the solid state in the channel and is transferred downstream during high flows of the river as suspended load, or even as bed load if the grains are still big and the flow is powerful enough. Moving downstream via alternate storage and transfer, the sediment becomes mature in composition and over time may consist of more than 90% quartz, having lost rock fragments and feldspar by abrasion and decomposition. Of its maximum annual channel sediment load of about 1200 million tonnes at Óbidos, virtually all the suspended sediment of the Amazon comes from the Andes either via the main stem Amazon or one of its major tributaries, the Madeira, the headwaters of both starting deep in the Andes. The floods may take the sediment-laden water across the floodplain, deposit the sediment on the floodplain, and then during the falling-water season, return the clear water to the channel. The floodplain of the Amazon within Brazil measures about 90 000 km2. The floodplains slowly grow vertically in floods and lose area by bank erosion associated with channel movement. These floodplains of Brazil (várzea) form a special environment with typical vegetation and animal life, strongly related to flood pulses. Junk et al. provide a detailed account of the physical and ecological characteristics of these floodplains in Chapter 5.

Image described by caption and surrounding text.

      Source: Meade 2007 with details in Dunne et al. 1998.

Image described by caption and surrounding text.

      Source: NASA worldview application (https://worldview.earthdata.nasa.giv), part of the NASA Earth Observatory System Data and Information System (EOSDIS).

      Data for clastic river sediment often only include total suspended load. Bed load is very difficult to measure. For many meandering rivers it is only a few per cent of the total load and considered to be within the margin of error for sampling (Milliman and Meade 1983 citing C. Nordin). This assumption probably does not work for sediment supplied by small mountainous streams or where large rivers cut through mountain ranges. The Brahmaputra, for example, is considered


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