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Reginald Aldworth Daly

Reginald Aldworth Daly (May 19, 1871 – September 19, 1957) was a Canadian geologist. He is best known for being one of the first proponents of the giant-impact hypothesis of the formation of the Moon.

Biography

Reginald Daly was educated at the University of Toronto, where geologist A.P. Coleman persuaded him away from teaching mathematics and into Earth Sciences. He obtained his PhD at Harvard, and did postgraduate work in Germany and France. After working as a field geologist for the International Boundary Commission, he was a professor, and headed the Department of Geology at Harvard University from 1912 until 1942. Daly was president of The Geological Society of America in 1932.[2]

For the Boundary Commission, working in six field seasons, Daly mapped the border from the Pacific Ocean to the Great Plains, a rugged swath 400 miles (640 km) long and 5 to 10 miles (8.0 to 16.1 km) wide – an area of about 2,500 square miles (6,500 km2). He documented the geology alone, but had the help of one field assistant and numerous wranglers and porters. He collected 1,500 rock specimens and made 960 thin sections, using a German polishing technique he learnt as a student. The project also included 1,300 photographs, dozens of lake soundings, stratigraphic and structural mapping, petrology, and morphology.[3] In 1912, he filed his final report with the Geological Survey of Canada, a massive 3-volume tome he called North America Cordillera: Forty-Ninth Parallel.[4] This work along the 49th parallel led him to formulate a theory of the origins of igneous rocks, and later publish his seminal work Igneous Rocks and Their Origin in 1914.

According to Daly's biographer, James Natland, Daly was an early proponent of Arthur Holmes and Alfred Wegener's continental drift theory.[5] Daly summarized his ideas in his 1926 book, Our Mobile Earth, which included on the title page small print adopted from Galileo: E pur si muove. Daly's theory on continental displacement was based partly on the idea that after the Moon was ejected from the Earth, continental movement was an inevitable part of rebalancing the planet; he also suggested that continental material accruing near oceans eventually slips, and forces continents to creep along. He expanded this notion in Strength and Structure of the Earth, in 1940, where Daly anticipated aspects of plate tectonics, including introduction of a "mesospheric shell" and a slippery vitreous basaltic substratum.

Daly also proposed the impact theory of lunar creation in 1946, which countered two prevailing notions: George Darwin's hypothesis that the Moon spun out of the primordial Earth due to centrifugal force; and, another fashionable theory that the Moon was a captured wayward asteroid. Daly applied Newtonian physics to make his point, which was later validated.

His doctoral students included the Canadian geologist Norman L. Bowen, who, based on experiments and observations of natural rocks, summarized the order of crystallization of common silicate minerals from typical basaltic magma undergoing fractional crystallization, now known as Bowen's reaction series.

Family

In 1903, Daly married Louise Porter Haskell, daughter of Alexander Cheves Haskell and Alice Van Yeveren, and elder sister of Mary Elizabeth Haskell. After their marriage, Louise accompanied Daly on his travels, and in the field, as an assistant. She did much of the work in preparing and editing his manuscripts and books, and Daly's 1914 book on 'Igneous Rocks and their Origin'[6] is dedicated to her; his "inspiring fellow worker".[7]

Awards

In 1909, Daly was elected a member of the American Academy of Arts and Sciences.[8] He was elected to the American Philosophical Society in 1913 and the United States National Academy of Sciences in 1925.[9][10] Daly was awarded the Penrose Medal in 1935, the Wollaston Medal in 1942[11] and the William Bowie Medal in 1946. In 1950 he became foreign member of the Royal Netherlands Academy of Arts and Sciences.[12] The potassium zirconium silicate mineral dalyite[13] and craters on Mars[14] and the Moon are named in his honor. His Cambridge, Massachusetts, house (the Reginald A. Daly House) is now a National Historic Landmark.

References

  1. ^ "Norman L. Bowen: A founding father of experimental petrology (Geochemistry and Geochronology)". science.ca. 2015-04-08. Retrieved 2021-10-29.
  2. ^ Eckel, Edwin, 1982, GSA Memoir 155, The Geological Society of America — Life History of a Learned Society: Boulder, Colorado, Geological Society of America Memoir 155, 168 p., ISBN 0-8137-1155-X.
  3. ^ Miksha, Ron (2013). The Mountain Mystery, p. 322.
  4. ^ Daly, R.A., (1912). Geology of the North American Cordillera at the 49th Parallel,Ottawa, Government Printing Office, Canada Department of Mines Geological Survey Memoir 38.
  5. ^ Natland, James (2006). "Reginald Aldworth Daly (1871–1957): Eclectic Theoretician of the Earth," Geology Today, pp. 24-26, Geological Society of America.
  6. ^ Igneous rocks and their origin. McGraw-Hill. 1914. OL 7223987M.
  7. ^ Natland, James H. (February 2006). "Reginald Aldworth Daly (1871–1957): Eclectic Theoretician of the Earth" (PDF). GSA Today. Geological Society of America. p. 24. Retrieved 2022-11-14.
  8. ^ "Member Directory". American Academy of Arts and Sciences. Retrieved October 7, 2022.
  9. ^ "APS Member History". search.amphilsoc.org. Retrieved 2023-11-14.
  10. ^ "Reginald Daly". www.nasonline.org. Retrieved 2023-11-14.
  11. ^ "Wollaston Medal". Award Winners since 1831. Geological Society of London. Archived from the original on 2010-08-19. Retrieved 2009-02-25.
  12. ^ "Reginald Aldworth Daly (1871 - 1957)". Royal Netherlands Academy of Arts and Sciences. Retrieved 19 July 2015.
  13. ^ Dalyite
  14. ^ de Vaucouleurs, G.; et al. (September 1975). "The new Martian nomenclature of the International Astronomical Union". Icarus. 26 (1): 85–98. Bibcode:1975Icar...26...85D. doi:10.1016/0019-1035(75)90146-3.

Bibliography

Further reading

External links