Herbert G. Baker | |
---|---|
Born | Brighton, England | February 23, 1920
Died | July 1, 2001 81) | (aged
Nationality | British American |
Alma mater | University of London (B.S., Ph.D.) |
Known for |
|
Spouse |
Irene Baker
(m. 1945; died 1989) |
Awards |
|
Scientific career | |
Fields | Botany Genetics Ecology |
Institutions | |
Notable students |
|
Signature | |
Herbert George Baker (February 23, 1920 – July 2, 2001) was a British-American botanist and evolutionary ecologist who was an authority on pollination biology and breeding systems of angiosperms.[1] He described what became known as "Baker's rule," a theoretical proposal underpinning an empirical observation that the ability to self-fertilize improves colonization ability among plants by increasing the probability of successful establishment after long-distance dispersal.[2] He collaborated with his wife, Irene Baker, studying the content and function of nectar, and undertaking research and publishing papers on its evolutionary and taxonomic significance.[3][4][5][6]
Early life and education
Baker was born on February 23, 1920, in Brighton, England. He received his B.Sc. (1941) and Ph.D. (1945) from the University of London. He married a fellow biologist Irene Baker on April 4, 1945, in Tredegar, Wales. Irene was also Herbert's research partner for the duration of their careers.
Career
From 1940 to 1945 he was a research chemist and assistant plant physiologist at Hosa (Cancer) Research Laboratories, London.[7] After the war, he was appointed Lecturer from 1945 to 1954 at the University of Leeds. From 1954 to 1957, was Senior Lecturer and Professor at University College of the Gold Coast, Ghana, where he did significant work on bat pollination and began a life-long interest in tropical biology.
In 1948, he spent one year as a visiting researcher at the Carnegie Institute of Washington, closely working with the all-star group of plant biologists, which included Jens Clausen, David Keck, and William Hiesey. Both Bakers then moved to the United States, taking positions at the University of California, Berkeley, where he filled the position that had been recently vacated by Thomas Goodspeed. Baker was the Director of the University of California Botanical Garden from 1957 to 1969, and the Associate Director from 1969 to 1974.[8] He remained at Berkeley for the remainder of his career, where he was Associate Professor, 1957-60, and Professor from 1960. He was a recipient of the Distinguished Teaching Award at Berkeley in 1971, and upon retirement, in 1990, received the Berkeley Citation, awarded to those whose contributions to the University go "beyond the call of duty, and whose achievements exceed the standards of excellence in their fields."[9]
Baker was instrumental in establishing the Organization for Tropical Studies (OTS) and lead one of its early courses in 1968, Reproductive Biology in Tropical Plant Ecology. Based in Costa Rica, OTS has greatly influenced research in tropical botany. Its broader mission is centered on provision of leadership in education, research, and the responsible use of natural resources in the tropics.[10]
The genus Bakerolimon (Plumbaginaceae) was named for Herbert Baker by the Russian botanist Igor Lintchevski in 1968. G. Ledyard Stebbins named "Baker's law" after Baker, for solidifying the scientific consensus around the observation that uniparentally reproducing species capable of self-fertilization (those that are neither dioecious or self-incompatible) possess a greater ability to establish following long-distance dispersal or in similar colonization contexts.[11]
Baker published over 175 research articles and supervised 49 Ph.D. students. He received numerous awards during his long and distinguished career. He was a member of both the American Academy of Arts and Sciences (1984) and the American Philosophical Society (1986).[12][13]
Publications
- The Genetics of Colonizing Species (1965). Edited with G. Ledyard Stebbins.
- Plants and Civilization (1965)
References
- ↑ Barrett, Spencer C. H. (November 2001). "The Baker and Stebbins era comes to a close". Evolution. 55 (11): 2371–2374. doi:10.1111/j.0014-3820.2001.tb00752.x.
- ↑ Pannell, John R. (2015). "The scope of Baker's law". New Phytologist. 208: 656–667. doi:10.1111/nph.13539.
- ↑ Kevan, P. G. (2003-05-01). "The modern science of ambrosiology: in honour of Herbert and Irene Baker". Plant Systematics and Evolution. 238 (1–4): 1–5. doi:10.1007/S00606-003-0271-Z.
- ↑ Herbert G. Baker; Irene Baker (1990). "THE PREDICTIVE VALUE OF NECTAR CHEMISTRY TO THE RECOGNITION OF POLLINATOR TYPES". Israel Journal of Plant Sciences. 39 (1–2): 157–177. ISSN 0792-9978. Wikidata Q108671338.
- ↑ Stephen H Bullock; Ricardo Ayala; Irene Baker; Herbert G Baker (1987). "REPRODUCTIVE BIOLOGY OF THE TREE IPOMOEA WOLCOTTIANA (CONVOLVULACEAE)". Madroño. 34 (4): 304–314. ISSN 0024-9637. JSTOR 41424651. Wikidata Q93962248.
- ↑ James H Hunt; Irene Baker; Herbert G Baker (1 November 1982). "Similarity of Amino Acids in Nectar and Larval Saliva: The Nutritional Basis for Trophallaxis in Social Wasps". Evolution. 36 (6): 1318–1322. doi:10.1111/J.1558-5646.1982.TB05501.X. ISSN 0014-3820. JSTOR 2408164. PMID 28563573. Wikidata Q44658429.
- ↑ "Herbert George Baker". Natural History Museum (BM). Retrieved 2023-06-19.
- ↑ "In Memoriam: Herbert George Baker". University of California. Retrieved 2023-06-19.
- ↑ "Berkeley Citation". University of California, Berkeley. Retrieved 2023-06-19.
- ↑ "Organization for Tropical Studies". Organization for Tropical Studies. Retrieved 2023-06-19.
- ↑ Pannell JR, Auld JR, Brandvain Y, Burd M, Busch JW, Cheptou PO, Conner JK, Goldberg EE, Grant AG, Grossenbacher DL, Hovick SM, Igic B, Kalisz S, Petanidou T, Randle AM, de Casas RR, Pauw A, Vamosi JC, Winn AA (July 2015). "The scope of Baker's law". The New Phytologist. 208 (3): 656–67. doi:10.1111/nph.13539. PMID 26192018.
- ↑ "Herbert George Baker". American Academy of Arts & Sciences. Retrieved 2022-05-12.
- ↑ "APS Member History". search.amphilsoc.org. Retrieved 2022-05-12.
- ↑ International Plant Names Index. H.G.Baker.