The major landforms of Chile are arranged as three parallel north–south units: the Andes mountains to the east; the intermediate depression, or longitudinal valley, in the centre; and the coastal ranges to the west. These landforms extend lengthwise through the five latitudinal geographic regions into which the country is customarily subdivided. From north to south, with approximate boundaries, these are Norte Grande (extending to 27° S); the north-central region, Norte Chico (27° to 33° S); the central region, Zona Central (33° to 38° S); the south-central region, La Frontera and the Lake District (38° to 42° S); and the extreme southern region, Sur (42° S to Cape Horn).
The Chilean Andes
Extending almost the length of the country, the Chilean Andes, which form most of the border with Argentina, include the highest segment of the Andes mountain chain, which acts as both a physical and a human divide. The Chilean Andean system consists of lofty, often snow-capped mountains, deeply incised valleys, and steep slopes.
The formation of the western Andes ranges began during the Jurassic Period, some 200 million years ago. Marine and terrestrial sediments that had accumulated in the Andean geosyncline were folded and lifted as the Pacific Plate was overridden by the South American Plate. In the Cenozoic Era (beginning about 65 million years ago) active volcanism and the injection of effusive rocks laid down the paleovolcanic materials (rhyolites and dacites) that contain the rich copper, iron, silver, molybdenum, and manganese ores of Chile. Also of Cenozoic origin are the coal deposits of central Chile.
Later in the Cenozoic Era the uplift of the Andes continued, accompanied by further outbursts of volcanism. This active tectonism led to the separation of the Andes from the older coastal ranges and the formation of the intermediate depression. At the beginning of the Quaternary Period (about 2.6 million years ago) the Andes had reached a higher elevation than at present. During the global cooling that occurred from the beginning of the Quaternary, the higher summits were covered by ice masses whose glacier tongues descended into the intermediate depression. Rich sediments were washed down the glacial valleys and deposited into the longitudinal depression. The numerous lakes in the Lake District of south-central Chile are remnants of the ice melting that began some 17,000 years ago. Since the advent of the Holocene Epoch (11,700 years ago) the Chilean Andes have not changed significantly, but they still experience uplift and episodic volcanic eruptions.
LicancáburLicancábur volcano, in the area of San Pedro de Atacama, Atacama Desert region, Chile.(more)
The Andes of northern Chile to latitude 27° S are wide and arid, with heights generally between 16,500 and 19,500 feet (5,000 and 6,000 metres). Most of the higher summits are extinct volcanoes, such as the Llullaillaco, 22,109 feet; Licancábur, 19,409 feet; and Ojos del Salado, 22,614 feet. After the last glaciation the melting waters collected in shallow lakes in the intermediate elevated basins. Today these salt lake basins (salares), the most noted of which is the Atacama Salt Flat, are evaporating to the point of disappearing. Farther south the mountains decrease somewhat in height, but in central Chile, between latitudes 32° and 34°30′ S, they heighten again, with peaks reaching 21,555 feet at Mount Tupungato and 17,270 feet at Maipo Volcano. All of these summits are capped by eternal snow that feeds the numerous rivers of central Chile. Winter sports are pursued in the Andes near Santiago.
Most of the highest mountains between 34°30′ and 42° S are volcanoes, ranging between 8,700 and 11,500 feet. Some of them are extinct while others are still active. Among them are Copahue, Llaima, Osorno, and the highest, Mount Tronador, at an elevation of 11,453 feet. Their perfect conical shapes reflecting on the quiet waters in the Lake District provide some of the most splendid scenery in temperate South America. In southern Chile, below latitude 42° S, the Andes lose elevation and their summits become more separated as a consequence of the Quaternary glacial erosion.
Farther south is Chilean Patagonia, a loosely defined area that includes the subregion of Magallanes and sometimes Chilean Tierra del Fuego. There significant heights are still reached: Mount San Valentín is more than 12,000 feet high, and Mount Darwin in Tierra del Fuego reaches almost 8,000 feet. Reminders of the last ice age are the perfectly U-shaped glacial troughs, sharp-edged mountains, Andean lakes, and some 7,000 square miles of continental ice masses. The Southern Ice Cap, between 48°30′ and 51°30′ S, is the largest in the Southern Hemisphere, with the exception of Antarctica.