- Stebbins, George Ledyard, Jr.
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▪ 2001American botanist and geneticist (b. Jan. 6, 1906, Lawrence, N.Y.—d. Jan. 19, 2000, Davis, Calif.), was a pioneer in the field of evolutionary biology and the first scientist to artificially produce a new species of plant that was capable of thriving under natural conditions. He was educated at Harvard University (Ph.D., 1931) and then taught biology at Colgate University, Hamilton, N.Y., and the University of California, Berkeley. In 1950 he transferred to the Davis campus of the University of California, where he founded the department of genetics. He was credited with being one of the biologists responsible for applying the modern synthetic theory of evolution—which integrates such processes as natural selection, gene mutation and recombination, changes in structure and number of chromosomes, and reproductive isolation—to higher organisms. The publication of Stebbins's Variation and Evolution in Plants (1950) established him as the first biologist to have applied this theory to plant evolution. Working with several species of flowering plants, Stebbins and a colleague, Ernest B. Babcock, studied polyploid plants, new plant species that originated from a spontaneous doubling of the chromosomes of existing species. When a technique was developed for doubling a plant's chromosomal number artificially, Stebbins used it to produce polyploids from several species of wild grass, of which the new species Ehrharta erecta was established in a natural environment in 1944. Stebbins's numerous later books included the influential Processes of Organic Evolution (1966).
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▪ American botanistborn January 6, 1906, Lawrence, New York, U.S.died January 19, 2000, Davis, CaliforniaAmerican botanist and geneticist known for his application of the modern synthetic theory of evolution to plants. Called the father of evolutionary botany, he was the first scientist to synthesize artificially a species of plant that was capable of thriving under natural conditions.Stebbins was educated at Harvard University, receiving a Ph.D. in biology in 1931. He taught at Colgate University in Hamilton, New York, and until 1973 was a member of the faculty at the University of California, Berkeley. In 1950 he transferred to the Davis campus of the University of California, where he founded the department of genetics. He made an extensive study of the distribution of plants in that area.Stebbins shares the credit for formulating and applying the modern synthetic theory of evolution to higher organisms. This theory distinguishes the basic processes of gene mutation and recombination, natural selection, changes in structure and number of chromosomes, and reproductive isolation. The publication of his Variation and Evolution in Plants (1950) established Stebbins as one of the first biologists to apply this theory to plant evolution. Working with several species of flowering plants, Stebbins and his coworker, Ernest B. Babcock, studied polyploid plants, which are new species of plants that have originated from a spontaneous doubling of the chromosomes of an existing species. When a technique was developed for doubling a plant's chromosomal number artificially, Stebbins used it to produce polyploids from several species of wild grass, of which the new species Ehrharta erecta was established in a natural environment in 1944.Stebbins wrote numerous books, including Processes of Organic Evolution (1966), as well as some 250 journal articles. Among his later works are Flowering Plants: Evolution Above the Species Level (1974) and Evolution (1977; with T. Dobzhansky, F. Ayala, and J. Valentine).* * *
Universalium. 2010.
