Introducing Large Rivers. Avijit Gupta
Чтение книги онлайн.

Читать онлайн книгу Introducing Large Rivers - Avijit Gupta страница 22

Название: Introducing Large Rivers

Автор: Avijit Gupta

Издательство: John Wiley & Sons Limited

Жанр: География

Серия:

isbn: 9781118451434

isbn:

СКАЧАТЬ between 1000 years and 2000 years. This allows progressive enrichment of quartz grains downstream.

      4.3.4 Morphology

      The axial trough of the central Amazon Basin exhibits a remarkable suite of fluvial landforms. The lowland Amazon has a straight and anastomosing channel within its floodplain. The main channel of the Amazon in Brazil has a sinuosity of 1.0–1.2 for most of the course. Over a measured length of 2000 km, the low water width of the river increases from 2 to 4 km and the corresponding depth from 10 to 20 m (Mertes and Dunne 2007). The width of the flooded Amazon is much bigger and the morphology and ecology of the river in flood is discussed in Chapter 5.

      The regional pattern of the channel of the Amazon depends on its changing discharge, sediment, and slope. Steep channels in bedrock and gravel characterise the valleys in the mountains. In the downwarped foreland zone with high sedimentation, rivers begin to build bars and shift smaller channels. Low-gradient meandering channels in fine material characterise the central trough of the Amazon. The channel and floodplain of the Amazon are incised into the central low trough of the basin displaying a complex pattern of channels of various size, scroll bars and levees, and lakes. Towards the east, tributaries are dammed by alluvium of the trunk river, forming characteristic river-mouth lakes. The gradient of the lower river being very gentle, tidal effects extend about 1000 km up the Amazon to Óbidos.

      Beyond the Andes foreland, the floodplain of the Holocene Amazon lies below a landscape of low hills under thick forest cover. The forest is interspersed with savanna, and recent deforestation is visible towards the northern and eastern margin of the basin. The channel and the floodplain continue between discontinuous terraces which are about 5–15 m above the general flood surface. The Holocene sediment in the channel and the floodplain consists of medium sand and finer sediment, weathered to clay minerals and enriched quartz grains (Johnsson and Meade 1990).

      This general description of the morphology of the Amazon may vary in places. Although the Amazon flows on top of thick sedimentary layers along its central axis, it is still influenced by buried transverse structures (Figure 2.2). Four major structural arches (Iquitos, Jutai, Purús and Gurupa) and the Monte Alegro Intrusion, occur underneath the sedimentary layers and modify the river near their location. The Amazon crosses the structural highs on a straightened course. The water surface steepens slightly, the floodplain narrows, the river tends to hug the foot of the terraces, scroll bars are found only at channel margins, and channel migration becomes less common. Gravity measurements for the Lower Amazon area show a change in the direction of the river and its form with gravity anomalies (Nunn and Aires 1988), indicating that the Amazon crosses its floodplain only in specific places. Structure controls even the biggest river in the world.

      An impressive amount of sediment is deposited on the lowermost Amazonian floodplains, and in the floodplain lakes (Meade 2007). An average annual sediment discharge of 1240 (±130) million tonnes at Óbidos has been computed from a number of measurements by Dunne et al. (1998). The arrival of the turbid sediment in the sea is clearly seen in a satellite image (Figure 3.4). About half of the sediment that passes Óbidos has been estimated to settle on the sea bed of the Amazon mouth (Kuehl et al. 1986) but a considerable amount is carried by the North Brazil Current to the northwest along the coastline and transported longshore around the northern promontory of Cabo Norte to ultimately reach the outer coastline of the delta of the Orinoco. Such sediment has travelled about 1600 km after leaving the mouth of the Amazon (Meade 2007). It is an extraordinary travelogue.

      Three factors interact through the late Cenozoic, and particularly the late Quaternary, to determine the form of the Amazon and its floodplain: basin tectonic setting, climate, and sea-level fluctuations (Mertes and Dunne 2007). These factors control erosion, sediment transport and deposition in the Amazon valley and determine the morphology of its channel and floodplain. The final product is a huge river, often nearly straight, influenced by geological structural features underneath, wider between such structural features with characteristic floodplain features, and a levee-bounded main lower channel that carries sediment to the sea, leaving lakes unfilled behind the embankments.

Map depicting structural control at the Amazon-Negro confluence with lakes, alluvial deposits, Solimoes, Alter do Chao, and Main Linearments marked.

      Source: Adapted from Latrubesse and Franzinelli 2002.

      4.4.1 The Setting