The two poles are at extreme opposites of the planet, and many of their features are also polar opposites. This list looks at ten of the most significant differences between two of Earth’s most inhospitable areas.
The arctic area is located in the North Pole region and has a natural melting cycle during which almost half of the ice shelf melts away in summer, only to freeze again in winter and come back to its original size. During winter, the arctic ice shelf has a surface almost equal to that of the US. However, an unsettling study has recently revealed that the 3.5 km thick ice shelf from Greenland is melting away so fast that half of it could disappear by the end of the century. Other studies suggest that the whole Arctic region could become iceless during summer, in less than a century.
On the other hand, the Antarctic region, or the South Pole, does not show the same regular melting cycle because its ice shelf has almost the same size and shape throughout the twelve months. Recent studies have also shown that the Antarctic region is melting away as well, not because of natural processes, but because of the global warming effects. Should all the ice from the South Pole melt in one day (which won’t happen in the near future), the seas and oceans would rise by 60 meters, specialists say. Interestingly enough, the Arctic region melts faster because it is submerged and the ocean currents accelerate the process, whereas the Antarctic region is made of stony bedrock which is less, or not at all, influenced by such phenomena.
2.Hole in the Ozone Layer
There is a hole in the ozone layer just above the Antarctic region which, now, is almost three times bigger than the US continental surface. The ozone layer above the Arctic region is getting thinner and thinner, as well, and there is no hole in the North Pole’s ozone layer just yet. Of course, a hole in the ozone layer does not mean that a physical breach actually exists there. The term is used to describe the phenomenon by which the chemical substance, the ozone, which wraps the Earth and protects it against solar radiation, has been severely damaged, and in some places, is even gone.
The ozone losses from the northern hemisphere are lower compared to those from the southern hemisphere because the higher Arctic temperatures prevent the forming of the polar stratospheric clouds which destroy the ozone. Nevertheless, the temperatures from the North Pole’s stratosphere have gradually dropped in recent years, leading to significant losses in the ozone layer.
Almost half of the world’s remaining oil deposits lie under the ice from the northern part of the Arctic Circle, according to estimates published by the US Geological Survey. For this reason, Russia is already claiming a monopoly over a large part of the Arctic region, thus hoping to exploit the deposits from the Lomonosov ridge, an aquatic protuberance from under the Arctic Ocean. It stretches over more than 1,800 km and allegedly hosts up to 10 billion tons of crude oil.
The US is also claiming its part, and is sending ice breakers to mark the US territory near Alaska. It is thought that oil deposits exist under the continental crust of the Antarctic region as well, such as the Ross Sea, but the Treaty of the Antarctic strictly forbids any oil exploitation activities in the region, for the time being.
4.Continent vs. Ocean
The Arctic region is basically a frozen ocean. In contrast, Antarctica is a continent in itself, based on bedrock and various landforms, such as mountains, valleys and lakes, all surrounded by the ocean. In fact, Antarctica is home to the famous active volcano Mount Erebus (pictured above).
Ironically enough, from a social and political standpoint, the Arctic region, which is made up of ice only, is the place where the interests of many countries converge: Canada, Greenland (part of Denmark), Russia, Iceland, Norway, Sweden, Finland and the United States. As stated before, the South Pole belongs to no country, and it has never been colonized nor populated by Eskimos.
An interesting phenomenon occurs near the geographic poles of the Earth, namely the polar vortex, which is a massive cyclone forming near the vertical edges of the planet. Polar vortexes are located in the middle and upper parts of the troposphere and the stratosphere.
They surround the polar areas and are part of the so-called “polar front” – the climate boundary between the polar area air masses and the neighboring warmer areas from both hemispheres. The Antarctic polar vortex is stronger and lasts longer than the Arctic one. This is due to the large land regions concentrated in the high latitude areas of the northern hemisphere, which create the Rossby atmospheric waves, thus diminishing the intensity of the vortex. In contrast, there are not too many factors able to influence the vortex from the South Pole.