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The Amazon River Flows Backwards, And Now Scientists Have Figured Out Why


Stephen Luntz

Stephen has a science degree with a major in physics, an arts degree with majors in English Literature and History and Philosophy of Science and a Graduate Diploma in Science Communication.

Freelance Writer

1524 The Amazon River Flows Backwards, And Now Scientists Have Figured Out Why
ESA. The shape of the Amazon Basinm mapped here using satellite altimeters is a relatively recent feature of the Earth.

The Amazon once flowed in the opposite direction, from east to west. Reversing the direction of the Earth's largest river is no trivial thing, and geologists have pondered the cause for some time. In Earth and Planetary Science Letters The University of Sao Paulo's Dr Victor Sacek has demonstrated that nothing more than erosion is needed to explain this enormous shift.

With the mighty Andes at the western end of the continent it seems logical that South America's rivers flow east. While the Amazon discharges five times as much water as any other river on the planet, The Orinoco and the Rio de la Plata run the same way, each dwarfing any river in North America or Europe in the process. 


However, until 10 million years ago, most of what is now the Amazon basin was drained by a river that flowed west into a giant lake that lay at the feet of the northern Andes. From there the water flowed north to the Caribbean Sea. Since the Isthmus of Panama had yet to form, this water was then swept west into the Pacific.

To tilt an entire continent seems such a vast endeavor that geologists had speculated changes in convection within the Earth's mantle, perhaps resulting from the break-up of Africa and South America, must have driven this.

Sacek, on the other hand, shows that the rise of the Andes as the South American plate rode over the Nazca Plate can explain the process on the appropriate timescale. Sacek included in his model the fact that as the mountains rose they intercepted more rain-bearing clouds, which in turn triggered more erosion.

At first the Andes rise produced a trough to the east, which became the paleolake into which the westward-flowing Amazon emptied. With time, however, this sinking slowed and erosion accelerated, replacing the lake with a series of wetlands known as the Pebas. The vast Pebas marshlands would have been an ecosystem like nothing we see today, but eventually sediment accumulation raised the region to the point where the rainfall in the area was pushed back the other way.


The model successfully matches the observation that sediment deposited at the Amazon's mouth has increased over the period of its eastward flow. At first, when the Amazon's sources were relatively flat, much of the sediment was dumped part way to its mouth, only being remobilized eons later.

Sacek admits however, that his model “Fails to fully reproduce the spacial and temporal evolution of the Pebas system as observed in geological data” and says further work is needed.

H/T Science 


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