Physical Features of Mountains

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(New page: '''PHYSICAL FEATURES OF MOUNTAINS''' Physically, existing mountains have only slope and '''elevation''' in common, and the fact that all will ultimately be eroded into insignificance,...)
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The Earth’s very youngest peaks are volcanic in origin. Paricutin in Mexico, for example, had built a cinder cone about 500 m high within a year of its eruption in 1943 (total elevation about 2 770 m). The Earth’s very youngest peaks are volcanic in origin. Paricutin in Mexico, for example, had built a cinder cone about 500 m high within a year of its eruption in 1943 (total elevation about 2 770 m).
 +With the present configuration of continents, more than two-thirds of the world land surface is located in the northern hemisphere, and the area of land north of the Tropic of Cancer slightly exceeds that in the rest of the world put together. This in part explains why the northern '''[[temperate]]''' belt contains a far greater mountain area than any other zone. The Antarctic region comes a distant second in total mountain
 +area, but owing to the immense extent and thickness of its icecap, it has the highest proportion of overall area defined as mountainous and the
 +greatest surface area above 2500 m.
-Reference+Dividing the world’s land by continental groups, rather than by latitude, shows unsurprisingly that the enormous Eurasian landmass has by far the greatest mountain area Eurasia also has the most extensive inhabited land area above 2 500 m elevation, in the Tibet (Xizang) Plateau and adjacent ranges.
 + 
 +All of the world’s mountains above 7 000 m in height are in Asia, and all the 14 peaks above 8 000 m are situated in the Greater Himalaya range extending along the southern rim of the Tibet Plateau.
 + 
 +After Eurasia, and excluding Antarctica, South America has the second most extensive area of high elevation land (Figure 4), formed by the mountains and basins of the Central Andes. The world’s highest individual peak outside Asia is Aconcagua, which reaches an elevation of around 6 959 m in the southern Andes. A major part of Greenland is above 2 500 m, and this region resembles Antarctica in that much of the surface is composed of a deep icesheet; in both cases most of the very small human population is restricted to the coast.
 + 
 +'''Reference'''
# '''Mountain Watch''' ''Defining Mountain Regions'' [http://www.unep-wcmc.org/mountains/mountain_watch/pdfs/WholeReport.pdf] # '''Mountain Watch''' ''Defining Mountain Regions'' [http://www.unep-wcmc.org/mountains/mountain_watch/pdfs/WholeReport.pdf]

Revision as of 12:28, 16 May 2010

PHYSICAL FEATURES OF MOUNTAINS

Physically, existing mountains have only slope and elevation in common, and the fact that all will ultimately be eroded into insignificance, while others will be created. They may be formed by uplift of extensive blocks of land around major faultlines, or by folding of rock strata, both of which result from continental movements, or by volcanic activity often associated with both faulting and folding.

Any given segment of land may well have been affected by all three processes over the course of Earth history, and so, with the exception of volcanic cones, mountain ranges will often be composed of a variety of igneous, sedimentary and metamorphic rock types. Accordingly, there is wide variation in features that depend on rock type, such as erosion potential, slope stability and soil.

Mountains vary widely in age. One of the better known episodes of ancient folding affected rocks now within northwest Europe around 400 million years ago; geological evidence for this early mountain-building has been largely obscured by later earth movements and the levelling effects of erosion. Much of the folding involved in uplift of the Alpine-Himalayan chains took place around 35 million years ago, and these tend to retain the sharp peaks and ridges typical of younger mountain ranges.

The Earth’s very youngest peaks are volcanic in origin. Paricutin in Mexico, for example, had built a cinder cone about 500 m high within a year of its eruption in 1943 (total elevation about 2 770 m).

With the present configuration of continents, more than two-thirds of the world land surface is located in the northern hemisphere, and the area of land north of the Tropic of Cancer slightly exceeds that in the rest of the world put together. This in part explains why the northern temperate belt contains a far greater mountain area than any other zone. The Antarctic region comes a distant second in total mountain area, but owing to the immense extent and thickness of its icecap, it has the highest proportion of overall area defined as mountainous and the greatest surface area above 2500 m.

Dividing the world’s land by continental groups, rather than by latitude, shows unsurprisingly that the enormous Eurasian landmass has by far the greatest mountain area Eurasia also has the most extensive inhabited land area above 2 500 m elevation, in the Tibet (Xizang) Plateau and adjacent ranges.

All of the world’s mountains above 7 000 m in height are in Asia, and all the 14 peaks above 8 000 m are situated in the Greater Himalaya range extending along the southern rim of the Tibet Plateau.

After Eurasia, and excluding Antarctica, South America has the second most extensive area of high elevation land (Figure 4), formed by the mountains and basins of the Central Andes. The world’s highest individual peak outside Asia is Aconcagua, which reaches an elevation of around 6 959 m in the southern Andes. A major part of Greenland is above 2 500 m, and this region resembles Antarctica in that much of the surface is composed of a deep icesheet; in both cases most of the very small human population is restricted to the coast.

Reference

  1. Mountain Watch Defining Mountain Regions [1]

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