International Geophysical Year

The International Geophysical Year (IGY; French: Année géophysique internationale), also referred to as the third International Polar Year, was an international scientific project that lasted from 1 July 1957 to 31 December 1958. It marked the end of a long period during the Cold War when scientific interchange between East and West had been seriously interrupted. Sixty-seven countries participated in IGY projects, although one notable exception was the mainland People's Republic of China, which was protesting against the participation of the Republic of China (Taiwan). East and West agreed to nominate the Belgian Marcel Nicolet as secretary general of the associated international organization.[1][2]

Official emblem of the IGY
A replica of Sputnik 1, which was launched into orbit on October 4, 1957.

The IGY encompassed fourteen Earth science disciplines: aurora, airglow, cosmic rays, geomagnetism, gravity, ionospheric physics, longitude and latitude determinations (precision mapping), meteorology, oceanography, nuclear radiation, glaciology, seismology, rockets and satellites, and solar activity.[3] The timing of the IGY was particularly suited for studying some of these phenomena, since it covered the peak of solar cycle 19.

Both the Soviet Union and the U.S. launched artificial satellites for this event; the Soviet Union's Sputnik 1, launched on October 4, 1957, was the first successful artificial satellite.[4] Other significant achievements of the IGY included the discovery of the Van Allen radiation belts by Explorer 1 and mid-ocean submarine ridges, an important confirmation of plate-tectonic theory.[5][6][7]

History

edit
 
A commemorative stamp issued by Japan in 1957 to mark the IGY. The illustration depicts the Japanese Research Ship Sōya and a penguin.

The origin of the International Geophysical Year can be traced to the International Polar Years held in 1882–1883, then in 1932–1933 and most recently from March 2007 to March 2009. On 5 April 1950, multiple scientists (including Lloyd Berkner, Sydney Chapman, S. Fred Singer, and Harry Vestine) met in James Van Allen's living room and suggested that the time was ripe to have a worldwide Geophysical Year instead of a Polar Year, especially considering recent advances in rocketry, radar, and computing.[8] Berkner and Chapman proposed to the International Council of Scientific Unions that an International Geophysical Year (IGY) be planned for 1957–58, coinciding with an approaching period of maximum solar activity.[9][10] In 1952, the IGY was announced.[11] Joseph Stalin's death in 1953 opened the way for international collaboration with the Soviet Union.

In 1952 the Comité Speciale de l'Année Géophysique Internationale (CSAGI), a special committee of the ICSU, was established to coordinate the International Geophysical Year (IGY) under president Sydney Chapman, a British geophysicist.

Events

edit

On 29 July 1955, James C. Hagerty, president Dwight D. Eisenhower's press secretary, announced that the United States intended to launch "small Earth circling satellites" between 1 July 1957 and 31 December 1958 as part of the United States contribution to the International Geophysical Year (IGY).[12] Project Vanguard would be managed by the Naval Research Laboratory and to be based on developing sounding rockets, which had the advantage that they were primarily used for non-military scientific experiments.[13]

Four days later, at the Sixth Congress of International Astronautical Federation in Copenhagen, scientist Leonid I. Sedov spoke to international reporters at the Soviet embassy and announced his country's intention to launch a satellite in the "near future".[14]

 
The launch of the satellite Explorer 1 on February 1, 1958.

To the surprise of many, the USSR launched Sputnik 1 as the first artificial Earth satellite on 4 October 1957. After several failed Vanguard launches, Wernher von Braun and his team convinced President Dwight D. Eisenhower to use one of their US Army missiles for the Explorer program (there was not yet an inhibition about using military rockets to get into space). On 8 November 1957, the US Secretary of Defense instructed the US Army to use a modified Jupiter-C rocket to launch a satellite.[15] The US achieved this goal only four months later with Explorer 1, on 1 February 1958, but after Sputnik 2 on 3 November 1957, making Explorer 1 the third artificial Earth satellite. Vanguard 1 became the fourth, launched on 17 March 1958. The Soviet launches would be followed by considerable political consequences, one of which was the creation of the US space agency NASA on 29 July 1958.

The British–American survey of the Atlantic, carried out between September 1954 and July 1959, discovered the full length of the mid-Atlantic ridges (plate tectonics); it was a major discovery during the IGY.[16]

World Data Centers

edit

Although the 1932 Polar Year accomplished many of its goals, it fell short on others because of the advance of World War II. In fact, because of the war, much of the data collected and scientific analyses completed during the 1932 Polar Year were lost forever, something that was particularly troubling to the IGY organizing committee.[17] The committee resolved that "all observational data shall be available to scientists and scientific institutions in all countries." They felt that without the free exchange of data across international borders, there would be no point in having an IGY.[18]

In April 1957, just three months before the IGY began, scientists representing the various disciplines of the IGY established the World Data Center system. The United States hosted World Data Center "A" and the Soviet Union hosted World Data Center "B". World Data Center "C" was subdivided among countries in Western Europe, Australia, and Japan.[18] NOAA hosted seven of the fifteen World Data Centers in the United States.

Each World Data Center would eventually archive a complete set of IGY data to deter losses prevalent during the International Polar Year of 1932. Each World Data Center was equipped to handle many different data formats, including computer punch cards and tape—the original computer media. In addition, each host country agreed to abide by the organizing committee's resolution that there should be a free and open exchange of data among nations.[19][20][21] ICSU-WDS goals are to preserve quality-assured scientific data and information, to facilitate open access, and promote the adoption of standards.[22] ICSU World Data System created in 2008 superseded the World Data Centers (WDCs) and Federation of Astronomical and Geophysical data analysis Services (FAGS) created by ICSU to manage data generated by the International Geophysical Year.[23][24][25]

Antarctica

edit

The IGY triggered an 18-month year of Antarctic science. The International Council of Scientific Unions, a parent body, broadened the proposals from polar studies to geophysical research. More than 70 existing national scientific organizations then formed IGY committees, and participated in the cooperative effort.

Australia established its first permanent base on the Antarctic continent at Mawson in 1954. It is now the longest continuously operating station south of the Antarctic Circle.[26] Davis was added in 1957, in the Vestfold Hills, 400 miles (640 km) east of Mawson. The wintering parties for the IGY numbered 29 at Mawson and 4 at Davis, all male. (Both stations now have 16 to 18 winterers, including both sexes.) As a part of the IGY activities, a two-man camp was installed beside Taylor Glacier, 60 miles (97 km) west of Mawson. Its principal purpose was to enable parallactic photography of the aurora australis (thus locating it in space), but it also permitted studies of Emperor penguins in the adjacent rookery.

Two years later, Australia took over the running of Wilkes, a station built for the IGY by the United States. When Wilkes rapidly deteriorated from snow and ice accumulation, plans were made to build Casey Station, known as Repstat ("replacement station"). Opened in 1969, Repstat was replaced by present-day Casey station in 1988.

Halley Research Station was founded in 1956 for the IGY by an expedition from the (British) Royal Society. The bay where the expedition set up their base was named Halley Bay, after the astronomer Edmond Halley.

Showa Station, the first Japanese base in Antarctica, was set up in January 1957,[27] supported by the ice breaker Sōya. When the ship returned a year later, it became beset offshore (stuck in the sea-ice). It was eventually freed with the assistance of the US icebreaker Burton Island but could not resupply the station. The 1957 winterers were retrieved by helicopter, but bad weather prevented going back for the station's 15 sled dogs, which were left chained up. When the ship returned a year later, two of the dogs, Taro and Jiro, were still alive.[28] They had escaped the dogline and survived by killing Adélie penguins in a nearby rookery (which were preserved by the low temperature). The two dogs became instant national heroes in Japan. A Japanese movie about this story was made in 1983, Antarctica.

France contributed Dumont d'Urville Station and Charcot Station in Adélie Land. As a forerunner expedition, the ship Commandant Charcot of the French Navy spent nine months of 1949/50 at the coast of Adelie Land. The first French station, Port Martin, was completed 9 April 1950, but destroyed by fire the night of 22 to 23 January 1952.[29]

Belgium established the King Baudouin Base in 1958. The expedition was led by Gaston de Gerlache, son of Adrien de Gerlache who had led the 1897–1899 Belgian Antarctic Expedition.[30] In December 1958, four team members were stranded several hundred kilometers inland when one of the skis on their light aircraft broke on landing. After a ten-day ordeal, they were rescued by an IL-14 aircraft after a flight of 1,940 miles (3,100 km) from the Soviet base, Mirny Station.

The Amundsen–Scott South Pole Station was erected as the first permanent structure at the South Pole in January 1957. It survived intact for 53 years, but was slowly buried in the ice (as all structures there eventually sink into the icy crust), until it was demolished in December 2010 for safety reasons.[31]

Arctic

edit

Ice Skate 2 was a floating research station constructed and staffed by U.S. scientists. It mapped the bottom of the Arctic Ocean. Zeke Langdon was a meteorologist on the project. Ice Skate 2 was planned to be staffed in 6 month shifts, but due to soft ice surfaces for landing some crew members were stationed for much longer. At one point they lost all communications with anyone over their radios for one month except the expedition on the North Pole. At another point the ice sheet broke up and their fuel tanks started floating away from the base. They had to put pans under the plane engines as soon as they landed as any oil spots would go straight through the ice in the intense sunshine. Their only casualty was a man who got too close to the propeller with the oil pan.[32]

Norbert Untersteiner was the project leader for Drifting Station Alpha and in 2008 produced and narrated a documentary about the project for the National Snow and Ice Data Center.[33]

Participating countries

edit

The participating countries for the IGY included the following:[34]

Legacy

edit

In the end, the IGY was a resounding success, and it led to advancements that live on today. For example, the work of the IGY led directly to the Antarctic Treaty, which called for the use of Antarctica for peaceful purposes and cooperative scientific research. Since then, international cooperation has led to protecting the Antarctic environment, preserving historic sites, and conserving the animals and plants. Today, 41 nations have signed the Treaty and international collaborative research continues.

The ICSU World Data System (WDS) was created by the 29th General Assembly of the International Council for Science (ICSU) and builds on the 50-year legacy of the former ICSU World Data Centres (WDCs) and former Federation of Astronomical and Geophysical data-analysis Services (FAGS).[35]

This World Data System, hosts the repositories for data collected during the IGY. Seven of the 15 World Data Centers in the United States are co-located at NOAA National Data Centers or at NOAA affiliates. These ICSU Data Centers not only preserve historical data, but also promote research and ongoing data collection.[36]

The fourth International Polar Year on 2007–2008 focused on climate change and its effects on the polar environment. Sixty countries participated in this effort and it included studies in the Arctic and Antarctic.[37]

edit

See also

edit

References and sources

edit
References
  1. ^ "Rockets, Radar, and Computers: The International Geophysical Year". NOAA Celebrates 200 Years. 24 October 2022. Retrieved 22 August 2023.
  2. ^ Everts, Sarah (2016). "Information Overload". Distillations. 2 (2): 26–33. Retrieved 20 March 2018.
  3. ^ CSAGI Guide to the IGY World Data Centers (1959) Annals of the International Geophysical Year Vol 7 Part 2 Pergamon Press
  4. ^ "International GeoPhysical Year".
  5. ^ "IGY History". ESRL Global Monitoring Division. Archived from the original on 17 May 2008. Retrieved 14 August 2015.
  6. ^ WMO, Archives. "The International Geophysical Year, 1957–1958". Archived from the original on 2016-07-02. Retrieved 2016-06-29.
  7. ^ "Korolev, Sputnik, and The International Geophysical Year".
  8. ^ Korsmo, Fae L. (1 July 2007). "The Genesis of the International Geophysical Year". Physics Today. 60 (7): 38. Bibcode:2007PhT....60g..38K. doi:10.1063/1.2761801.
  9. ^ "The International Geophysical Year". National Academy of Sciences. 2005. Archived from the original on 21 May 2016. Retrieved 14 August 2015.
  10. ^ Matthew Kohut (Fall 2008). "Shaping the Space Age: The International Geophysical Year". ASK Magazine (32). NASA. Archived from the original on 19 February 2013. Retrieved 5 July 2012.
  11. ^ "This Month in Physics History". APS News. 16 (9). October 2007. Retrieved 1 September 2018.
  12. ^ Hagerty, James C. (29 July 1955). "The White House: Statement by James C. Hagerty" (PDF) (Press release). Archived from the original (PDF) on 5 March 2019. Retrieved 1 September 2018.
  13. ^ "Vanguard Project". U.S. Naval Research Laboratory. Archived from the original on 2020-02-16. Retrieved 2015-08-13.
  14. ^ Schefter, James (1999). The Race: The uncensored story of how America beat Russia to the Moon. New York: Doubleday. ISBN 0-385-49253-7. isbn:0385492537.
  15. ^ Winter, Frank H; van der Linden, Robert (November 2007), "Out of the Past", Aerospace America, p. 38
  16. ^ "Rockets, Radar, and Computers: The International Geophysical Year". US Department of Commerce, National Oceanic and Atmospheric Administration. May 12, 2017.
  17. ^ Beardsley, Ann; Garcia, C. Tony; Sweeney, Joseph (2016-09-09). Historical guide to NASA and the space program. Lanham, Massachusetts: Rowman & Littlefield. ISBN 978-1-4422-6287-4. OCLC 949912296.
  18. ^ a b Odishaw, Hugh (1959). "International Geophysical Year". Science. 129 (3340): 14–25. Bibcode:1959Sci...129...14O. doi:10.1126/science.129.3340.14. ISSN 0036-8075. JSTOR 1755204. PMID 17794348.
  19. ^ "World Data System (WDS)". Archived from the original on 2013-06-05. Retrieved 12 June 2013.
  20. ^ Ad hoc Strategic Committee on Information and Data. Final Report to the ICSU Committee on Scientific Planning and Review (PDF). ICSU. 2008. p. 25. Archived from the original (PDF) on 2013-05-25. Retrieved 2016-06-29.
  21. ^ Ad -hoc Strategic Coordinating Committee on Information and Data Interim Report to the ICSU Committee on Scientific Planning and Review (PDF). ICSU. 2011. p. 7. ISBN 978-0-930357-85-6. Archived from the original (PDF) on 2015-09-10. Retrieved 2016-06-29.
  22. ^ "Constitution of the International Council for Science World Data System (ICSU WDS)" (PDF). Retrieved 12 June 2013.[permanent dead link]
  23. ^ "International science community to build a 'World Data System'". itnews. 28 Oct 2008. Retrieved 12 June 2013.
  24. ^ Cheryl Pellerin. "International Science Council to Revamp World Data Centers". Archived from the original on 21 October 2012. Retrieved 12 June 2013.
  25. ^ US National Academies. "The International Geophysical Year". Archived from the original on 7 June 2013. Retrieved 21 June 2013.
  26. ^ "History of Australian Antarctic stations". www.antarctica.gov.au. Retrieved 2019-03-03. [verification needed]
  27. ^ Agency, Japan Aerospace Exploration. "ISAS – International Geophysical Year/ History of Japanese Space Research".
  28. ^ Solar, Igor I. (2012-11-21). "Taro and Jiro — A story of canine strength and tenacity". Digital Journal. Retrieved 2021-03-25.
  29. ^ "French IGY – Following the Data of the International Geophysical Year (1957–8)". Archived from the original on 2015-12-18. Retrieved 2016-06-29.
  30. ^ "Belgium Federal Science Policy and Polar Secretariat – Home". Archived from the original on 2012-03-24. Retrieved 2016-06-29.
  31. ^ "South Pole's first building blown up after 53 years". OurAmazingPlanet.com. 2011-03-31.
  32. ^ Harrington, Jon. "Shared Photographs". Google Photos. Retrieved March 25, 2016.
  33. ^ "International Geophysical Year, 1957-1958: Drifting Station Alpha Documentary Film, Version 1".
  34. ^ Nicolet, M. "The International Geophysical Year 1957/58" (PDF). World Meteorological Organization. Archived from the original (PDF) on 28 July 2013. Retrieved 28 November 2013.
  35. ^ "Introduction to ICSU World Data System". ICSU. Archived from the original on 10 April 2016. Retrieved 17 July 2013.
  36. ^ "ICSU World Data System". ICSU. Archived from the original on 30 December 2015. Retrieved 17 July 2013.
  37. ^ "International Polar Year 2007–2008". Retrieved 17 July 2013.
  38. ^ "Lyrics – The Nightfly (1982) – D. Fagen Solo". Steelydan.com. Archived from the original on 15 August 2015. Retrieved 14 August 2015.
  39. ^ "25th Grammy Awards list of nominees". grammy.com. 1983. Retrieved 16 April 2016.
  40. ^ "Russell Brockbank Cartoons". magazine.punch.co.uk. PUNCH Magazine Cartoon Archive. Retrieved 25 August 2023.
Sources
edit