Climate of Antarctica

The climate of Antarctica is the coldest on the whole of Earth. Antarctica has the lowest naturally occurring temperature ever recorded on the ground on Earth: −89.2 °C (−128.6 °F) at Vostok Station.[1] It is also extremely dry (technically a desert), averaging 166 mm (6.5 in) of precipitation per year. Even so, on most parts of the continent the snow rarely melts and is eventually compressed to become the glacial ice that makes up the ice sheet. Weather fronts rarely penetrate far into the continent. Most of Antarctica has an ice cap climate (Köppen EF) with very cold, generally extremely dry weather throughout the year and no month averaging above 0 °C (32 °F). Some fringe coastal areas have a polar climate (Köppen ET) with a short summer averaging above freezing, and much higher precipitation.

Contents

Temperature

The lowest naturally occurring temperature on Earth was −89.2°C (−128.6°F); recorded on Thursday, July 21, 1983 at Vostok Station. For comparison, this is 11 °C colder than subliming dry ice. The highest temperature ever recorded in Antarctica was 14.6°C (58.3°F) in two places, Hope Bay and Vanda Station, on January 5, 1974. The mean annual temperature of the interior is −57°C (−70°F). The coast is warmer. Monthly means at McMurdo Station range from −28°C (−18.4°F) in August to −3°C (26.6°F) in January. At the South Pole, the highest temperature ever recorded was −12.3°C (9.9°F) on December 25, 2011.[2] Along the Antarctic Peninsula, temperatures as high as 15°C (59°F) have been recorded, though the summer temperature is usually around 2°C (36°F). Severe low temperatures vary with latitude, elevation, and distance from the ocean. East Antarctica is colder than West Antarctica because of its higher elevation. The Antarctic Peninsula has the most moderate climate. Higher temperatures occur in January along the coast and average slightly below freezing.

Precipitation

The total precipitation in Antarctica, averaged over the entire continent, is about 166 mm (6.5 in) per year (Vaughan et al., J Climate, 1999). The actual rates vary widely, from high values over the Peninsula (meters/yards per year) to very low values (as little as 50 mm (2 in) per year) in the high interior. Areas that receive less than 250 mm (10 in) of precipitation per year are classified as deserts. Almost all Antarctic precipitation falls as snow. Note that the quoted precipitation is a measure of its equivalence to water, rather than being the actual depth of snow. The air in Antarctica is also very dry. The low temperatures result in a very low absolute humidity, which means that dry skin and cracked lips are a continual problem for scientists and expeditioners working in the continent.

Weather condition classification

The weather in Antarctica can be highly variable, and the weather conditions can often change dramatically in short periods of time. There are three classifications for describing weather conditions in Antarctica. At least one of the following criteria must be met for each category.

Condition 1
Windspeed over 55 knots (60 miles per hour)
Visibility less than 100 feet (30 meters)
Wind chill below −100 °F (−73 °C)
Description: Dangerous conditions; outside travel is not permitted.
Condition 2
Windspeed of 48 to 55 knots (55 to 63 miles per hour)
Visibility 1/4 of a mile to 100 feet (402 to 30 meters)
Wind chill of −75 °F (−60 °C) to −100 °F (−73 °C)
Description: Unpleasant conditions; outside travel is permitted but not recommended.
Condition 3
Windspeed below 48 knots (55 miles per hour)
Visibility greater than 1/4 of a mile (402 meters)
Wind chill above −75 °F (−60 °C)
Description: Pleasant conditions; all outside travel is permitted.

Ice cover

Nearly all of Antarctica is covered by an ice sheet that is, on average, at least 1.6 kilometres thick. Antarctica contains 90% of the world's ice and more than 70% of its fresh water. If all the land-ice covering Antarctica were to melt — around 30 million cubic kilometres of ice — the seas would rise by over 60 metres.[3] This is, however, very unlikely within the next few centuries. The Antarctic is so cold that even with increases of a few degrees, temperatures would generally remain below the melting point of ice. Warmer temperatures are expected to lead to more snow, which would increase the amount of ice in Antarctica, offsetting approximately one third of the expected sea level rise from thermal expansion of the oceans.[4] During a recent decade, East Antarctica thickened at an average rate of about 1.8 centimetres per year while West Antarctica showed an overall thinning of 0.9 centimetres per year (Davis et al., Science 2005) doi:10.1126/science.1110662. For the contribution of Antarctica to present and future sea level change, see sea level rise. Because ice flows, albeit slowly, the ice within the ice sheet is younger than the age of the sheet itself.

Morphometric data for Antarctica (from Drewry, 1983)
Surface Area
(km²)
Percent Mean ice thickness
(m)
Volume
(km³)
Percent
Inland ice sheet 11,965,700 85.97 2,450 29,324,700 97.39
Ice shelves 1,541,710 11.08 475 731,900 2.43
Ice rises 78,970 .57 670 53,100 .18
Glacier ice (total) 13,586,380   2,160 30,109,800¹
Rock outcrop 331,690 2.38
Antarctica (total) 13,918,070 100.00 2,160 30,109,800¹ 100.00
¹The total ice volume is different from the sum of the component parts because individual figures have been rounded.
Regional ice data (from Drewry and others, 1982; Drewry, 1983)
Region Area
(km²)
Mean ice
thickness
(m)
Volume
(km³)
East Antarctica
Inland ice 9,855,570 2,630 25,920,100
Ice shelves 293,510 400 117,400
Ice rises 4,090 400 1,600
West Antarctica (excluding Antarctic Peninsula)
Inland ice sheet 1,809,760 1,780 3,221,400
Ice shelves 104,860 375 39,300
Ice rises 3,550 375 1,300
Antarctic Peninsula
Inland ice sheet 300,380 610 183,200
Ice shelves 144,750 300 43,400
Ice rises 1,570 300 500
Ross Ice Shelf
Ice shelf 525,840 427 224,500
Ice rises 10,320 500 5,100
Filchner-Ronne Ice Shelf
Ice shelf 472,760 650 307,300
Ice rises 59,440 750 44,600

Ice shelves

Most of the coastline of Antarctica is ice shelves (floating ice sheet) or ice walls (grounded ice). Melting or breakup of floating shelf ice does not affect global sea levels, and happens regularly as shelves grow. Known changes in coastline ice:

The George VI Ice Shelf, which may be on the brink of instability,[5] has probably existed for approximately 8000 years, after melting 1500 years earlier.[6] Warm ocean currents may have been the cause of the melting.[7] The idea that it was warmer in Antarctica 10,000 years ago is supported by ice cores, though the timing is not quite right.

Climate change

The continent-wide average surface temperature trend of Antarctica is positive and significant at >0.05°C/decade since 1957.[8][9][10][11] The West Antarctic ice sheet has warmed by more than 0.1°C/decade in the last 50 years, and is strongest in winter and spring. Although this is partly offset by fall cooling in East Antarctica, this effect is restricted to the 1980s and 1990s.[12][13][14]

The British Antarctic Survey, which has undertaken the majority of Britain's scientific research in the area, has the following positions: [2]

The area of strongest cooling appears at the South Pole, and the region of strongest warming lies along the Antarctic Peninsula. A possible explanation is that loss of UV-absorbing ozone may have cooled the stratosphere and strengthened the polar vortex, a pattern of spinning winds around the South Pole. The vortex acts like an atmospheric barrier, preventing warmer, coastal air from moving in to the continent's interior. A stronger polar vortex might explain the cooling trend in the interior of Antarctica. [3]

In their latest study (September 20, 2007) NASA researchers have confirmed that Antarctic snow is melting farther inland from the coast over time, melting at higher altitudes than ever and increasingly melting on Antarctica's largest ice shelf.[15]

There is also evidence for widespread glacier retreat around the Antarctic Peninsula.[16]

See also

References

  1. ^ Gavin Hudson (2008-12-14). "The Coldest Inhabited Places on Earth". Eco Worldly. http://ecoworldly.com/2008/12/14/the-coldest-inhabited-places-on-earth/. Retrieved 2009-02-08. 
  2. ^ Matthew A. Lazzara (2011-12-28). "Preliminary Report: Record Temperatures at South Pole (and nearby AWS sites…)". http://amrc.ssec.wisc.edu/blog/2011/12/28/preliminary-report-record-temperatures-at-south-pole-and-nearby-aws-sites/. Retrieved 2011-12-28. 
  3. ^ "Climate Change 2001: The Scientific Basis". Grida.no. http://www.grida.no/climate/ipcc_tar/wg1/412.htm#tab113. Retrieved 2011-03-27. 
  4. ^ "Climate Change 2001: The Scientific Basis". Grida.no. http://www.grida.no/climate/ipcc_tar/wg1/428.htm. Retrieved 2011-03-27. 
  5. ^ [1]
  6. ^ http://igloo.gsfc.nasa.gov/wais/pastmeetings/abstracts00/Bentley2.htm
  7. ^ "Press Release – New Year?s Honours for British Antarctic Survey Personnel – British Antarctic Survey". Antarctica.ac.uk. 2006-01-05. http://www.antarctica.ac.uk/News_and_Information/Press_Releases/story.php?id=160. Retrieved 2011-03-27. 
  8. ^ http://climatechangepsychology.blogspot.com/2009/01/eric-j-steig-temperature-in-west.html Retrieved=2009-01-22
  9. ^ http://www.ess.washington.edu/web/ess/people/faculty_bio/steig-bio.html Retrieved=2009-01-22
  10. ^ http://www.nature.com/nature/journal/v457/n7228/full/nature07669.html Retrieved=2009-01-22
  11. ^ http://news.smh.com.au/breaking-news-world/global-warming-hitting-all-of-antarctica-scientists-20090122-7mul.html Retrieved=2009-01-22
  12. ^ http://climatechangepsychology.blogspot.com/2009/01/eric-j-steig-temperature-in-west.html Retrieved=2009-01-22
  13. ^ http://www.ess.washington.edu/web/ess/people/faculty_bio/steig-bio.html Retrieved=2009-01-22
  14. ^ http://www.nature.com/nature/journal/v457/n7228/full/nature07669.html Retrieved=2009-01-22
  15. ^ "NASA Researchers Find Snowmelt in Antarctica Creeping Inland" September 20, 2007
  16. ^ IPCC 2007, Intergovernmental Panel on Climate Change, Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, 2007, page 376.

External links

Climate

Climate change in Antarctica

Antarctic ice