Biography:Jean-Jacques d'Ortous de Mairan

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Short description: 18th-century French geophysicist, astronomer, and chronobiologist


Jean-Jacques d'Ortous de Mairan
Jean-Jacques Dortous de Mairan. Line engraving by P. C. Ingo Wellcome V0003793.jpg
Engraving by Pierre-Charles Ingouf (1746–1800)
Born26 November 1678
Béziers, France
Died20 February 1771(1771-02-20) (aged 92)
Paris, France
EducationUniversity of Toulouse
Known forStudies of circadian rhythm
AwardsElected to the French Academy of Sciences, Fellow of the Royal Society, Foreign Member of the Royal Swedish Academy of Sciences
Scientific career
FieldsGeophysics, astronomy, chronobiology
PatronsCardinal de Fleury, Louis XV, Prince of Conti, Duke of Orléans
Doctoral advisorNicolas Malebranche

Jean-Jacques d'Ortous de Mairan (26 November 1678 – 20 February 1771) was a French natural philosopher (physicist), born in the town of Béziers on 26 November 1678.[1] De Mairan lost his father, François d'Ortous, at age four and his mother twelve years later at age sixteen.[1] Over the course of his life, de Mairan was elected into numerous scientific societies and made key discoveries in a variety of fields including ancient texts and astronomy. His observations and experiments also inspired the beginning of what is now known as the study of biological circadian rhythms. At the age of 92, de Mairan died of pneumonia in Paris on 20 February 1771.

Biography

De Mairan attended college in Toulouse from 1694–1697 with a focus on ancient Greek.[1] In 1698 he went to Paris to study mathematics and physics under the teachings of Nicolas Malebranche.[1] In 1702, he returned home to Béziers and began his lifelong study of several fields, most notably astronomy and plant rhythms.[1] Furthermore, during his time in Béziers, he ate almost every day with the Bishop, Louis-Charles des Alrics du Rousset (fr). In 1723, de Mairan, who had become a member of the Académie Royale des Sciences, co-founded the Académie de Béziers under the protection of Cardinal de Fleury, acting prime minister of Louis XV (and himself a protégé of a former Bishop of Béziers, Pierre de Bonsi).[1] Eventually, de Mairan received official lodging in the Louvre where he remained pensionnaire until 1743 and served as secretary from 1741 to 1743.[1] In 1746, he was reinstated as pensionnaire géomètre, or full-time boarding surveyor. It is reported that the Prince of Conti and other great lords heaped extravagant gifts upon him. He was also secretary to the Duke of Orléans.[1]

Observations and notable experiments

  • In 1719, De Mairan discussed the varying obliquity of light that causes cold in winter and heat in summer. He postulated that the sun's heating effect was related to the square of the sine of its elevation. He neglected the effects of atmosphere, admitting that he did not know how much the sun's heat would be absorbed by it. Two and a half years later, he presented a paper to the Academie Royale des Sciences in Paris: "Problem: the ratio of two degrees or quantities of sunlight seen through the atmosphere at two different known angular elevations being given, to find what part of the absolute light of the sun is intercepted by the atmosphere at any desired elevation." In this paper, de Mairan made a hypothesis based on mere observations, supposing that the ratio had been measured, even though it had not. The significance of de Mairan's work, although incorrect, led his protégé, Pierre Bouguer, to invent the photometer.[2]
  • In 1729, de Mairan constructed an experiment showing the existence of a circadian rhythm in plants, presumably originating from an endogenous clock (See 'Experiment on circadian rhythms in plants' below).
  • In 1731, he also observed a nebulosity around a star near the Orion nebula. This was later designated M43 by Charles Messier.
  • In 1731, he published "Traite Physique et Historique De l'Aurore Boreale" (a short summary appeared in the Philosophical Transactions[3]) in which he put up a novel hypothesis that the Northern Lights are caused by the Sun, as the interaction of the atmosphere with the zodiacal light. At the time, the aurorae were thought to be 'flames' caused by sulfurous effluvia emanating from the Earth.

Experiment on circadian rhythms in plants

In 1729, de Mairan performed an experiment that demonstrated the existence of circadian rhythms in plants, specifically the Mimosa pudica.[4] He was intrigued by the daily opening and closing of the heliotrope plant and performed a simple experiment where he exposed the plants to constant darkness and recorded the behaviour.[5] De Mairan's key conclusion was that the daily rhythmic opening and closing of the leaves persisted even in the absence of sunlight.[5] However, de Mairan did not infer that heliotropes have internal clocks driving leaf rhythms, but rather that they were able "to sense the Sun without ever seeing it". The concept of an internal clock was actually not formulated until much later, although de Mairan did suggest that "it would be curious to test [...] whether, using kilns heated to higher or lower temperatures, one could artificially recreate a day & night perceptible to [plants]; and whether in doing so one could reverse the order of the phenomena of true day & true night."[6]

These results may have gone unnoticed had his colleague, Jean Marchant,[7][8] not published them for de Mairan.[5] Alternatively, it may be that de Mairan simply was not available to present this work himself. It was quite common at the time, when travels were slow, for one scientist to present the work of another. Whatever the case, this rather obscure one-page contribution by a prolific and highly respected academician did stand the test of time. It is by far the most if not the only paper by de Mairan which is still quoted in the current scientific literature (bar purely historical reviews). When describing his work with eclosion rhythms in his Drosophila models or the rhythmic running activity of mice, founder of modern chronobiology, Colin Pittendrigh, recognised the work of Jean-Jacques d'Ortous de Mairan.[9]

A video showing circadian rhythms in a cucumber plant in constant conditions, similar to what de Mairan observed, can be seen here on YouTube.

De Mairan's experimental legacy

Despite Marchant's publication of de Mairan's work, which might have suggested the existence of endogenous biological clocks, rhythms in plant movements were for a long time thought to be extrinsically controlled, by light and dark cycles, or magnetic and temperature oscillations, or even a mysterious, yet-to-be identified X-factor.[10]

In 1823, almost a century after de Mairan's work, the Swiss botanist Augustin Pyramus de Candolle expanded on it by measuring the free running period of Mimosa pudica leaf movements in constant conditions, finding them to be 22–23 hours long. This was probably the first hint of what is now called the circadian (from Latin circa, about, and diem) nature of such endogenous rhythms, found in practically all living organisms, including some bacteria.[11]

Scientific societies and recognition

In 1718, de Mairan was inducted into the Académie Royale des Sciences.[1] The Cardinal de Fleury and the Count of Maurepas selected Mairan to replace Bernard le Bovier de Fontenelle as "Secrétaire perpétuel" of the Académie in 1740, a position he accepted only for 3 years, and thus duly resigned in 1743.[1] De Mairan also served as the Académie's assistant director and later director intermittently between 1721 and 1760.[1] Eventually, de Mairan was appointed editor of the Journal des sçavans, a science periodical, by Chancellor d'Aguesseau.[1] Also, in 1735, de Mairan was elected a Fellow of the Royal Society and in 1769, a Foreign Member of the Royal Swedish Academy of Sciences as well as to the Russian Academy (St. Petersburg) in 1718.[1] De Mairan was also a member of the Royal Societies of London, Edinburgh, and Uppsala; the Institute of Bologna,[1] and the Academy of Rouen.[12] With Jean Bouillet and Antoine Portalon, he founded his own scientific society in his hometown of Béziers, named the Académie de Béziers (fr), around 1723.[1]

Selected publications

Sur la question des forces vives, 1741

Beyond astronomical and circadian observations, de Mairan actively worked in several other fields of physics including "heat, light, sound, motion, the shape of the Earth, and the aurora".[1]

The following is an abbreviated list of publications (with their English translations) organised by Dr. Robert A. Hatch at the University of Florida:[13][14]

He also published mathematical works.

References

  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 1.11 1.12 1.13 1.14 1.15 Westfall, Richard S.. "Mairan, Jean-Jacques d'Ortous de". The Galileo Project. Rice University. http://galileo.rice.edu/Catalog/NewFiles/mairan.html. 
  2. Middleton, WEK (May 1964). "The Early History of the Visibility Problem". Applied Optics 3 (5): 599–602. doi:10.1364/AO.3.000599. Bibcode1964ApOpt...3..599K. 
  3. "An account of a book by Mr de Mairan". Philosophical Transactions of the Royal Society 38: 243. 1734. https://babel.hathitrust.org/cgi/pt?id=ucm.5324350933&view=1up&seq=269. 
  4. Zordan, Mauro; Costa, Rodolfo; MacIno, Giuseppe; Fukuhara, Chiaki; Tosini, Gianluca (2000). "Circadian Clocks: What Makes Them Tick?". Chronobiology International 17 (4): 433–451. doi:10.1081/CBI-100101056. PMID 10908122. http://informahealthcare.com/doi/abs/10.1081/CBI-100101056. Retrieved 12 April 2012. 
  5. 5.0 5.1 5.2 "Biological Clocks – Garden Variety Experiments". HHMI. http://www.hhmi.org/biointeractive/museum/exhibit00/02_1.html. 
  6. de Mairan's paper can be accessed here, together with its analysis in the light of present views of circadian rhythms. That analysis is available in English.
  7. Zivkovic, Bora (29 May 2008). "Clock Classics: It all started with the plants". ScienceBlogs. http://scienceblogs.com/clock/2008/05/clock_classics_it_all_started.php. 
  8. Lewin, Roger (29 September 2005) (in en). Making Waves: Irving Dardik and His Superwave Principle. Harmony/Rodale. ISBN 978-1-62336-240-9. https://www.google.com/books/edition/Making_Waves/M9BzZi9Bm4gC. Retrieved 27 November 2023. "But his botanist friend Jean Marchant, to whom de Mairan had described his observations, decided that the finding was so important that he would tell the world about it at a scientific meeting in Paris in 1729." 
  9. Pittendrigh, Colin S.; Harold A. Miller (1993). "Temporal Organization: Reflections of a Darwinian Clock-Watcher". Annual Review of Physiology 55: 21; 17–54. doi:10.1146/annurev.ph.55.030193.000313. PMID 8466172. http://www.ifc.unam.mx/pages/curso_ritmos/capitulo1/1-5-Pitt'93.pdf. 
  10. Somers, DE (September 1999). "The physiology and molecular bases of the plant circadian clock". Plant Physiology 121 (1): 9–20. doi:10.1104/pp.121.1.9. PMID 10482655. 
  11. McClung, Robertson C (2006). "Plant Circadian Rhythms". The Plant Cell 18 (4): 792–803. doi:10.1105/tpc.106.040980. PMID 16595397. 
  12. "Mairan, Jean-Jacques Dortous De | Encyclopedia.com". https://www.encyclopedia.com/science/dictionaries-thesauruses-pictures-and-press-releases/mairan-jean-jacques-dortous-de. 
  13. Hatch, Robert. "Dr.". Westfall Catalogue. http://www.clas.ufl.edu/users/ufhatch/pages/03-sci-rev/SCI-REV-Home/resource-ref-read/major-minor-ind/westfall-dsb/SAM-M.htm. 
  14. de Fouchy, Grandjean (1774). Histoire de l'Académie Royale des Sciences. Paris: Nouvelle biographie generale. pp. 335. 

External links