Timeline of meteorology

The timeline of meteorology contains events of scientific and technological advancements in the area of atmospheric sciences. The most notable advancements in observational meteorology, weather forecasting, climatology, atmospheric chemistry, and atmospheric physics are listed chronologically. Some historical weather events are included that mark time periods where advancements were made, or even that sparked policy change

Antiquity

Although the term meteorology is used today to describe a subdiscipline of the atmospheric sciences, Aristotle's work is more general. The work touches upon much of what is known as the earth sciences. In his own words:
...all the affections we may call common to air and water, and the kinds and parts of the earth and the affections of its parts.[4]
Aristotle
One of the most impressive achievements in Meteorology is his description of what is now known as the hydrologic cycle:
Now the sun, moving as it does, sets up processes of change and becoming and decay, and by its agency the finest and sweetest water is every day carried up and is dissolved into vapour and rises to the upper region, where it is condensed again by the cold and so returns to the earth.[4]
As to this coming of rain from the mountains, some hold that the clouds carry the rain with them, dispersing as it is precipitated (and they are right). Clouds and rain are really the same thing. Water evaporating upwards becomes clouds, which condense into rain, or still further into dew.[6]

Middle Ages

Anemometers
– Nicolas Cryfts, (Nicolas of Cusa), described the first hair hygrometer to measure humidity. The design was drawn by Leonardo da Vinci, referencing Cryfts design in da Vinci's Codex Atlanticus.[22]

17th century

Galileo.
Sir Francis Bacon
Blaise Pascal.
– Edmund Halley establishes the relationship between barometric pressure and height above sea level.[33]

18th century

Global circulation as described by Hadley.
- Royal Society begins twice daily observations compiled by Samuel Horsley testing for the influence of winds and of the moon on the barometer readings.[41]
– First hair hygrometer demonstrated. The inventor was Horace-Bénédict de Saussure.

19th century

Isothermal chart of the world created 1823 by William Channing Woodbridge using the work of Alexander von Humboldt.
John Herapath develops some ideas in the kinetic theory of gases but mistakenly associates temperature with molecular momentum rather than kinetic energy; his work receives little attention other than from Joule.
What hath God wrought[47]
James Prescott Joule experimentally finds the mechanical equivalent of heat.
– The Manchester Examiner newspaper organises the first weather reports collected by electrical means.[50]
William John Macquorn Rankine calculates the correct relationship between saturated vapour pressure and temperature using his hypothesis of molecular vortices.
Rudolf Clausius gives the first clear joint statement of the first and second law of thermodynamics, abandoning the caloric theory, but preserving Carnot's principle.
– Rankine introduces his thermodynamic function, later identified as entropy.
– After establishment in 1849, 500 U.S. telegraph stations are now making weather observations and submitting them back to the Smithsonian Institution. The observations are later interrupted by the American Civil War.
– Manila Observatory founded in the Philippines.[38]
– United States Army Signal Corp, forerunner of the National Weather Service, issues its first hurricane warning.[38]
Synoptic chart from 1874.
– The first mention of the term "El Niño" to refer to climate occurs when Captain Camilo Carrilo told the Geographical society congress in Lima that Peruvian sailors named the warm northerly current "El Niño" because it was most noticeable around Christmas.
Svante Arrhenius proposes carbon dioxide as a key factor to explain the ice ages.

20th century

- The Marconi Company issues the first routine weather forecast by means of radio to ships on sea. Weather reports from ships started 1905.[55]
- Sakuhei Fujiwhara is the first to note that hurricanes move with the larger scale flow, and later publishes a paper on the Fujiwhara effect in 1921.[38]
Erik Palmén publishes his findings that hurricanes require surface water temperatures of at least 26°C (80°F) in order to form.
– Hurricanes begin to be named alphabetically with the radio alphabet.
WMO World Meteorological Organization replaces IMO under the auspice of the United Nations.
– A United States Navy rocket captures a picture of an inland tropical depression near the Texas/Mexico border, which leads to a surprise flood event in New Mexico. This convinces the government to set up a weather satellite program.[38]
NSSP National Severe Storms Project and NHRP National Hurricane Research Projects established. The Miami office of the United States Weather Bureau is designated the main hurricane warning center for the Atlantic Basin.[38]
The first television image of Earth from space from the TIROS-1 weather satellite.
Jacob Bjerknes described ENSO by suggesting that an anomalously warm spot in the eastern Pacific can weaken the east-west temperature difference, causing weakening in the Walker circulation and trade wind flows, which push warm water to the west.
– The first use of a General Circulation Model to study the effects of carbon dioxide doubling. Syukuro Manabe and Richard Wetherald at Princeton University.
– CAMEX3, a NASA experiment run in conjunction with NOAA's Hurricane Field Program collects detailed data sets on Hurricanes Bonnie, Danielle, and Georges.

21st century

See also

References and notes

  1. 1 2 3 4 "History of Meteorological Services in India". India Meteorological Department. March 19, 2016. Archived from the original on March 19, 2016. Retrieved March 19, 2016.
  2. Susan Wills; Steven R. Wills (2003). Meteorology: Predicting the Weather. The Oliver Press, Inc. ISBN 978-1-881508-61-8.
  3. 1 2 3 4 5 Ancient and pre-Renaissance Contributors to Meteorology National Oceanic and Atmospheric Administration (NOAA)
  4. 1 2 Aristotle (2004) [350 B.C.E]. Meteorology. The University of Adelaide Library, University of Adelaide, South Australia 5005: eBooks@Adelaide. Translated by E. W. Webster
  5. "Timeline of geography, paleontology". Paleorama.com. Following the path of Discovery
  6. 1 2 3 4 Needham, Joseph (1986). Science and Civilization in China: Volume 3, Mathematics and the Sciences of the Heavens and the Earth. Taipei: Caves Books Ltd.
  7. Plinio Prioreschi, "Al-Kindi, A Precursor Of The Scientific Revolution", Journal of the International Society for the History of Islamic Medicine, 2002 (2): 17–19 [17].
  8. Fahd, Toufic. : 815. Missing or empty |title= (help); |contribution= ignored (help), in Morelon, Régis; Rashed, Roshdi (1996). Encyclopedia of the History of Arabic Science 3. Routledge. ISBN 0-415-12410-7.
  9. Fahd, Toufic. : 842. Missing or empty |title= (help); |contribution= ignored (help), in (Morelon & Rashed 1996, pp. 813–52)
  10. Mahmoud Al Deek (November–December 2004). "Ibn Al-Haitham: Master of Optics, Mathematics, Physics and Medicine, Al Shindagah.
  11. Sami Hamarneh (March 1972). Review of Hakim Mohammed Said, Ibn al-Haitham, Isis 63 (1), p. 119.
  12. Frisinger, H. Howard (March 1973). "Aristotle's Legacy in Meteorology". Bulletin of the American Meteorological Society 54 (3): 198–204 [201]. doi:10.1175/1520-0477(1973)054<0198:ALIM>2.0.CO;2.
  13. George Sarton, Introduction to the History of Science (cf. Dr. A. Zahoor and Dr. Z. Haq (1997), Quotations from Famous Historians of Science)
  14. Dr. Nader El-Bizri, "Ibn al-Haytham or Alhazen", in Josef W. Meri (2006), Medieval Islamic Civilization: An Encyclopaedia, Vol. II, p. 343-345, Routledge, New York, London.
  15. Toulmin, S. and Goodfield, J. (1965), The Ancestry of science: The Discovery of Time, Hutchinson & Co., London, p. 64
  16. Seyyed Hossein Nasr (December 2003). "The achievements of IBN SINA in the field of science and his contributions to its philosophy". Islam & Science 1.
  17. A. I. Sabra (Spring 1967). "The Authorship of the Liber de crepusculis, an Eleventh-Century Work on Atmospheric Refraction". Isis 58 (1): 77–85 [77]. doi:10.1086/350185.
  18. Robert E. Hall (1973). "Al-Biruni", Dictionary of Scientific Biography, Vol. VII, p. 336.
  19. Raymond L. Lee; Alistair B. Fraser (2001). The Rainbow Bridge: Rainbows in Art, Myth, and Science. Penn State Press. p. 156. ISBN 978-0-271-01977-2.
  20. The Bookman, ed. (January 1892). "The Earliest known Journal of the Weather". p. 147.
  21. Topdemir, Hüseyin Gazi (2007) Kamal Al-din Al-Farisi´s explanation of the rainbow. idosi.org
  22. 1 2 3 4 5 Jacobson, Mark Z. (June 2005). Fundamentals of Atmospheric Modeling (2nd ed.). New York: Cambridge University Press. p. 828. ISBN 978-0-521-54865-6.
  23. Hellmann's Repertorium of German Meteorology, page 963. Dmg-ev.de. Retrieved on November 6, 2013.
  24. Morison, Samuel Eliot (1942). Admiral of the Ocean Sea: A Life of Cristopher Columbus. p. 617.
  25. Dorst, Neal (May 5, 2014). "Subject: J6) What are some important dates in the history of hurricanes and hurricane research?". Tropical Cyclone Frequently Asked Questions:. United States Hurricane Research Divison. Archived from the original on March 19, 2016. Retrieved March 19, 2016.
  26. Austria National Library
  27. Leonhard Reynmann, Astrologe und Meteorologe
  28. Highlights in the study of snowflakes and snow crystals. Its.caltech.edu (February 1, 1999). Retrieved on 2013-11-06.
  29. New Organon (English translations)
  30. Florin to Pascal, September 1647,Œuves completes de Pascal, 2:682.
  31. Raymond S. Bradley, Philip D. Jones (1992) Climate Since A.D. 1500, Routledge, ISBN 0-415-07593-9, p.144
  32. Thomas Birch's History of the Royal Society is one of the most important sources of our knowledge not only of the origins of the Society, but also the day to day running of the Society. It is in these records that the majority of Wren's scientific works are recorded.
  33. Cook, Alan H. (1998) Edmond Halley: Charting the Heavens and the Seas, Oxford: Clarendon Press, ISBN 0198500319.
  34. Grigull, U., Fahrenheit, a Pioneer of Exact Thermometry. Heat Transfer, 1966, The Proceedings of the 8th International Heat Transfer Conference, San Francisco, 1966, Vol. 1.
  35. George Hadley (1735). "Concerning the cause of the general trade winds". Philosophical Transactions of the Royal Society of London 39 (436–444): 58. doi:10.1098/rstl.1735.0014. JSTOR 103976.
  36. O'Connor, John J.; Robertson, Edmund F., "Timeline of meteorology", MacTutor History of Mathematics archive, University of St Andrews.
  37. Olof Beckman (2001) History of the Celsius temperature scale., translated, Anders Celsius (Elementa, 84:4).
  38. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Dorst, Neal, FAQ: Hurricanes, Typhoons, and Tropical Cyclones: Hurricane Timeline, Hurricane Research Division, Atlantic Oceanographic and Meteorological Laboratory, NOAA, January 2006.
  39. Biographical note at “Lectures and Papers of Professor Daniel Rutherford (1749–1819), and Diary of Mrs Harriet Rutherford”. londonmet.ac.uk
  40. Gaston R. Demarée: The Ancien Régime instrumental meteorological observations in Belgium or the physician with lancet and thermometer in the wake of Hippocrates. Ghent University.
  41. 1 2 J.L. Heilbron et. al: "The Quantifying Spirit in the 18th Century". Publishing.cdlib.org. Retrieved on November 6, 2013.
  42. "Sur la combustion en général" ("On Combustion in general", 1777) and "Considérations Générales sur la Nature des Acides" ("General Considerations on the Nature of Acids", 1778).
  43. Nicholas W. Best, "Lavoisier's 'Reflections on Phlogiston' I: Against Phlogiston Theory", Foundations of Chemistry, 2015, 17, 137-151.
  44. Nicholas W. Best, Lavoisier's 'Reflections on Phlogiston' II: On the Nature of Heat, Foundations of Chemistry, 2016, 18, 3-13. In this early work, Lavoisier calls it “igneous fluid”.
  45. The 1880 edition of A Guide to the Scientific Knowledge of Things Familiar, a 19th-century educational science book, explained heat transfer in terms of the flow of caloric.
  46. G-G Coriolis (1835). "Sur les équations du mouvement relatif des systèmes de corps". J. de l'École royale polytechnique 15: 144–154.
  47. Library of Congress. The Invention of the Telegraph. Retrieved on January 1, 2009.
  48. David M. Schultz. Perspectives on Fred Sanders's Research on Cold Fronts, 2003, revised, 2004, 2006, p. 5. Retrieved on July 14, 2006.
  49. Louis Figuier; Émile Gautier (1867). L'Année scientifique et industrielle. L. Hachette et cie. pp. 485–486.
  50. A History of the Telegraph Companies in Britain between 1838 and 1868. Distantwriting.co.uk. Retrieved on November 6, 2013.
  51. Millikan, Frank Rives, JOSEPH HENRY: Father of Weather Service, 1997, Smithsonian Institution
  52. Anne E. Egger and Anthony Carpi: "Data collection, analysis, and interpretation: Weather and climate". Visionlearning.com (January 2, 2008). Retrieved on 2013-11-06.
  53. International Cloud-Atlas. ucsd.edu
  54. Reynolds, Ross (2005). Guide to Weather. Buffalo, New York: Firefly Books Ltd. p. 208. ISBN 1-55407-110-0.
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  56. Max Austria-Forum on Max margules. Austria-lexikon.at. Retrieved on November 6, 2013.
  57. Norwegian Cyclone Model, webpage from NOAA Jetstream online school for weather.
  58. "75th anniversary of starting aerological observations in Russia". EpizodSpace (in Russian).
  59. Roth, David, and Hugh Cobb, Virginia Hurricane History: Early Twentieth Century, July 16, 2001.
  60. Earth Observation History on Technology Introduction.. eoportal.org.
  61. Nathan J. Mantua, Steven R. Hare, Yuan Zhang, John M. Wallace, and Robert C. Francis (June 1997). "A Pacific interdecadal climate oscillation with impacts on salmon production". Bulletin of the American Meteorological Society 78 (6): 1069–1079. Bibcode:1997BAMS...78.1069M. doi:10.1175/1520-0477(1997)078<1069:APICOW>2.0.CO;2.
  62. Unified Surface Analysis Manual. Weather Prediction Center. August 7, 2013

External links

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