Cecil Edmund Yarwood

Add links
From Wikipedia, the free encyclopedia
Cecil Edmund Yarwood
BornSeptember 16, 1908
Sumas, Washington
DiedSeptember 10, 1981 (age 73)
Brisbane, Australia
CitizenshipCanadian and American
EducationUniversity of British Columbia, BSA

Purdue University, MS

University of Wisconsin-Madison, PhD
PartnerEvangeline Alderman
ChildrenAnn, Kathryn, Peggy, Mary, and Edward
Scientific career
FieldsPlant pathology
InstitutionsUniversity of California, Berkeley
Thesis (1934)
Doctoral advisorJames G. Dickson

Cecil Edmund Yarwood (1908–1981) was an American-Canadian plant pathologist whose work focused on obligate parasites of plants, viruses, and conditions that predisposed plants to infections. He is considered an authority on rust (fungus) and powdery mildew.[1]

Education and career[edit]

Yarwood was the third of four children of Clare and Helma Yarwood.[2] He grew up on the Canadian–American border near Sumas, Washington, giving him dual citizenship.[3] Graduating from high school at the age of 15, he spent much of his time managing the family farm.[2] He received a BSA in agriculture from the University of British Columbia in 1929 and an MS in plant pathology from Purdue University in 1931, where he studied under Edwin Butterworth Mains and M. W. Gardner. He received his PhD in plant pathology in 1934 from the University of Wisconsin-Madison. His doctoral thesis, supervised by James G. Dickson, was titled, "The diurnal cycle of the powdery mildew, Erysiphe polygoni".[4]

Yarwood spent his entire career at the University of California, Berkeley, starting in 1934 as an instructor and junior plant pathologist and retiring in 1975 as a full professor. He served on the editorial board for the scientific journals Phytopathology and Virology, and was also the president of the Pacific Division of the American Phytopathological Society in 1946. He continued to research and publish after retiring.[4]

Research[edit]

Yarwood published on a variety of plant pathology topics including fungi, powdery mildew, rusts, viruses, and predisposing factors. Some of his earlier work demonstrated that, contrary to what was previously believed, powdery mildew conidia could germinate in dry conditions.[5] This was possible, he found, because powdery mildew fungi (Erysiphe polygoni, E. graminis, and E. cichoracearum) had 4.5 times higher water content than some other fungal conidia.[6] He also showed that about half of all known basidiospores at the time had a vertical orientation while attached to the basidium. Work previously done by Arthur Henry Reginald Buller had stated that the spores were horizontally oriented.[3]

Yarwood's work on predisposition examined biotic and abiotic contributing factors. He investigated how one infection could enable or enhance a secondary infection that was otherwise not common, coining the phrase "absolute predisposition" to describe situations where one infection was required for the secondary infection.[3] He also demonstrated that some plant leaves were able to tolerate higher temperatures (55 °C) after being exposed to lower temperatures (50 °C) 12–48 hours prior.[7]

Although not a virologist, Yarwood did some work on virus transmission, interaction, and characterization.[4] Some of this work focused on improving inoculation methods from the standard Carborundum-dependent methods.[8] He also worked to improve the timing of virus assays by demonstrating that there is sometimes a latent period after inoculation when the virus is difficult to detect.[9]

Awards and recognition[edit]

References[edit]

  1. ^ a b c Raabe, Robert D.; Herbert Gold; Edward S. Sylvester; Stephen Wilhelm (1985). "1985, University of California: In Memoriam. Cecil Edmund Yarwood, Plant Pathology:Berkeley". University of California (System) Academic Senate.
  2. ^ a b Teakle, D. S. (1989). "Portraits of Outstanding Pioneers: Cecil Edmund Yarwood". Annu. Rev. Phytopathol. 27: 25–31. doi:10.1146/annurev.py.27.090189.000325.
  3. ^ a b c Black, L. M.; A. R. Weinhold; A. H. Gold (1983). "Cecil Edmund Yarwood, 1907–1981". Mycologia. 75 (4): 579–587. doi:10.1080/00275514.1983.12023725. JSTOR 3792986.
  4. ^ a b c Gold, A. H.; A. R. Weinhold; L. M. Black (1983). "Cecil Edmund Yarwood, 1907–1981 Obituary" (PDF). Phytopathology. 73 (4): 509.
  5. ^ Yarwood, Cecil E. (1936). "The tolerance of Erysiphe polygoni and certain other powdery mildews to low humidity". Phytopathology. 26: 845–859.
  6. ^ Yarwood, Cecil E. (1950). "Water content of fungus spores". American Journal of Botany. 37 (8): 636–639. doi:10.1002/j.1537-2197.1950.tb11052.x. JSTOR 2437874.
  7. ^ Yarwood, Cecil E. (1957). "Acquired Tolerance of Leaves to Heat". Science. 16 (3483): 941–2. Bibcode:1961Sci...134..941Y. doi:10.1126/science.134.3483.941. PMID 17812919. S2CID 33302846.
  8. ^ Yarwood, Cecil E. (1955). "Deleterious effects of water in plant virus inoculations". Virology. 1 (3): 268–285. doi:10.1016/0042-6822(55)90024-6. PMID 13267995.
  9. ^ Yarwood, Cecil E. (1952). "Latent period and generation time for two plant viruses". American Journal of Botany. 39 (9): 613–618. doi:10.1002/j.1537-2197.1952.tb13075.x. JSTOR 2438365.
  10. ^ John Simon Guggenheim Memorial Foundation (2015). "Cecil Edmund Yarwood". Retrieved 27 September 2016. {{cite journal}}: Cite journal requires |journal= (help)
  11. ^ University of California (System) (1956). "University Bulletin July 1956-June 1957". 5 (1). {{cite journal}}: Cite journal requires |journal= (help)
  12. ^ "APS Fellow Recipients 1965–1969". The American Phytopathological Society. 2016. Archived from the original on 21 November 2016. Retrieved 27 September 2016.
  13. ^ Thomson, A. D. and J. D. Ferguson (1982). "Effect of different levels of calcium nitrate and potassium dihydrogen phosphate on powdery mildew (Erysiphe graminis DC) infection in resistant and susceptible barley and wheat". N.Z. Journal of Agricultural Research. 25: 103–107. doi:10.1080/00288233.1982.10423378.
Retrieved from "https://en.wikipedia.org/w/index.php?title=Cecil_Edmund_Yarwood&oldid=1155732420"