William E. Castle Explained

Birth Date:25 October 1867
Birth Place:Ohio, USA
Fields:Genetics of mammals (especially the guinea pig) and insects (Drosophila melanogaster)
Workplaces:University of Wisconsin–Madison, Knox College, Harvard University, University of California, Berkeley
Education:Denison University, Harvard University
Notable Students:Sewall Wright, William Curtis Farabee
Known For:Anticipation of the Hardy–Weinberg law; use of Drosophila melanogaster for genetic studies
Awards:Kimber Genetics Award of the National Academy of Sciences
Spouse:Clara Sears Bosworth

William Ernest Castle (October 25, 1867 – June 3, 1962) was an early American geneticist.

Early years

William Ernest Castle was born on a farm in Ohio and took an early interest in natural history. He graduated in 1889 from Denison University in Granville, Ohio, a Baptist college that emphasized classics, and went on to become a teacher of Latin at Ottawa University in Ottawa, Kansas, where he published his first paper on the flowering plants of the area. After three years of teaching, botany won out over Latin.[1]

Education

Castle entered the senior class of Harvard University in 1892 and in 1893 took a second A.B. degree with honors. He was appointed laboratory assistant in zoology, an A.M. degree in 1894 and a Ph.D. in 1895. He then taught zoology at the University of Wisconsin–Madison and at the Knox College in Galesburg, Illinois, each for a year.

Harvard and Drosophila

Castle returned to Harvard in 1897. His early work focused on embryology, but after the rediscovery of Mendelian genetics in 1900, he turned to mammalian genetics, especially that of the guinea pig. That same year, he was elected to the American Academy of Arts and Sciences.[2]

In 1903 Castle intervened in the debate on mathematical foundations of Mendelian genetics. He corrected some tentative work of Udny Yule on breeding by deliberate selection and genetics. In so doing, he anticipated what has now become known as the Hardy–Weinberg law. Formulated in the terms "as soon as selection is arrested the race remains stable at the degree of purity then attained", it appeared in his paper of November that year.[3]

At Harvard, Charles W. Woodworth suggested to Castle that Drosophila might be used for genetical work.[4] Castle was the first to use the fruit fly Drosophila melanogaster, and it was his work that inspired T.H. Morgan to use Drosophila and the basis of Morgan's 1933 Nobel Prize.

Bussey Institution

In 1908 Castle moved from the Harvard Museum of Comparative Zoology to the Bussey Institution for Applied Biology. He was elected to the American Philosophical Society in 1910.[5] At Harvard, his most famous PhD student was Sewall Wright who graduated in 1915. The same year he was elected to membership in the U.S. National Academy of Sciences.[1] When the Eugenics Record Office was founded in 1912, he served as a member of its scientific advisory board, and in 1916 he was one of the 10 founders of the scientific journal Genetics.

His work with hooded rats provided important evidence that evolution could occur by the action of selection on small variations in traits. Other biologists (including T. H. Huxley and William Bates) had doubted Darwin's belief in the sufficiency of small variations (acted upon by natural selection over long periods of time) to explain evolution. He realized that the traits acted upon could be multifactorial. (2)

Later years

Castle retired from Harvard in 1936 when the Bussey Institution closed, and took up a position at the University of California, Berkeley, as Research Associate in mammalian genetics.[6] In 1955 he was awarded the Kimber Genetics Award of the U.S. National Academy of Sciences.[7] His last of 242 papers was published in 1961 when he was 91 years old.

Family

In 1896, Castle married Clara Sears Bosworth, and they had three sons, one of whom died as a teenager. The others became professors at Harvard, William B. Castle of medicine, and the younger Edward Castle, of plant physiology.[8]

Further reading

Notes and References

  1. Web site: William ernest castle 1867—1962 A Biographical Memoir . Leslie Clarence . Dunn. L. C. Dunn. National Academy of Sciences.
  2. Web site: 2023-02-09 . William Ernest Castle . 2023-12-05 . American Academy of Arts & Sciences . en.
  3. W. E. Castle, The Laws of Heredity of Galton and Mendel, and Some Laws Governing Race Improvement by Selection, Proceedings of the American Academy of Arts and Sciences Vol. 39, No. 8 (Nov., 1903), pp. 223–242, at p. 237. Published by: American Academy of Arts & Sciences
  4. Web site: Thomas H. Morgan – Biographical . nobelprize.org . . T.H. Morgan's Nobel Prize biography mentioning C. W. Woodworth's suggestion and W. E. Castle's use of Drosophila. (From Nobel Lectures, Physiology or Medicine 1922–1941, Elsevier Publishing Company, Amsterdam, 1965.) Retrieved May 14, 2018.
  5. Web site: APS Member History . 2023-12-05 . search.amphilsoc.org.
  6. Harvard, Agriculture, and the Bussey Institution. Weir, John "Jack" A.. Genetics. April 1994. 136. 4. 1227–1231. 10.1093/genetics/136.4.1227. 1205903. 8013900.
  7. Web site: Kimber Genetics Award . National Academy of Sciences . nasonline.org . May 14, 2018.
  8. Web site: William B. castle 1897—1990 A Biographical Memoir . James Harriman . Jandl . James H. Jandl . National Academy of Sciences.