William Bateson

Crayon drawing by the biologist Dennis G. Lillie, 1909

Bateson was born in Whitby on the Yorkshire coast, the son of William Henry Bateson, Master of St John's College, Cambridge. He was educated at Rugby School and at St John's College in Cambridge, where he graduated BA in 1883 with a first in natural sciences.[2]

Taking up embryology, he went to the United States to investigate the development of Balanoglossus. This worm-like enteropneust hemichordate led to his interest in vertebrate origins. In 1883-4 he worked in the laboratory of William Keith Brooks, at the Chesapeake Zoölogical Laboratory in Hampton, Virginia.[3] Turning from morphology to study evolution and its methods, he returned to England and became a Fellow of St John's. Studying variation and heredity, he travelled in western Central Asia.

Bateson's work published before 1900 systematically studied the structural variation displayed by living organisms and the light this might shed on the mechanism of biological evolution,[4] and was strongly influenced by both Charles Darwin's approach to the collection of comprehensive examples, and Francis Galton's quantitative ("biometric") methods. In his first significant contribution,[5] he shows that some biological characteristics (such as the length of forceps in earwigs) are not distributed continuously, with a normal distribution, but discontinuously (or "dimorphically"). He saw the persistence of two forms in one population as a challenge to the then current conceptions of the mechanism of heredity, and says "The question may be asked, does the dimorphism of which cases have now been given represent the beginning of a division into two species?”

In his 1894 book, Materials for the study of variation,[6] Bateson took this survey of biological variation significantly further. He was concerned to show that biological variation exists both continuously, for some characters, and discontinuously for others, and coined the terms "meristic" and "substantive" for the two types. In common with Darwin, he felt that quantitative characters could not easily be "perfected" by the selective force of evolution, because of the perceived problem of the "swamping effect of intercrossing", but proposed that discontinuously varying characters could.

In Materials Bateson noted and named homeotic mutations, in which an expected body-part has been replaced by another. The animal mutations he studied included bees with legs instead of antennae; crayfish with extra oviducts; and in humans, polydactyly, extra ribs, and males with extra nipples. These mutations are in the homeobox genes which control the pattern of body formation during early embryonic development of animals. The 1995 Nobel Prize for Physiology or Medicine was awarded for work on these genes. They are thought to be especially important to the basic development of all animals. These genes have a crucial function in many, and perhaps all, animals.[7]

In Materials unaware of Gregor Mendel's results, Bateson wrote concerning the mechanism of biological heredity, "The only way in which we may hope to get at the truth is by the organization of systematic experiments in breeding, a class of research that calls perhaps for more patience and more resources than any other form of biological enquiry. Sooner or later such an investigation will be undertaken and then we shall begin to know." Mendel had cultivated and tested some 28,000 plants, performing exactly the experiment Bateson wanted.[8][9][10]

Also in Materials, he stated what has been called Bateson's rule, namely that extra legs are mirror-symmetric with their neighbours, such as when an extra leg appears in an insect's leg socket. It appears to be caused by the leaking of positional signals across the limb-limb interface, so that the extra limb's polarity is reversed.[11]

In 1897 he reported some significant conceptual and methodological advances in his study of variation.[12] "I have argued that variations of a discontinuous nature may play a prepondering part in the constitution of a new species." He attempts to silence his critics (the "biometricians") who misconstrue his definition of discontinuity of variation by clarification of his terms: "a variation is discontinuous if, when all the individuals of a population are breeding freely together, there is not simple regression to one mean form, but a sensible preponderance of the variety over the intermediates… The essential feature of a discontinuous variation is therefore that, be the cause what it may, there is not complete blending between variety and type. The variety persists and is not “swamped by intercrossing”. But critically, he begins to report a series of breeding experiments, conducted by Edith Saunders, using the alpine brassica Biscutella laevigata in the Cambridge botanic gardens. In the wild, hairy and smooth forms of otherwise identical plants are seen together. They intercrossed the forms experimentally, “When therefore the well-grown mongrel plants are examined, they present just the same appearance of discontinuity which the wild plants at the Tosa Falls do. This discontinuity is, therefore, the outward sign of the fact that in heredity the two characters of smoothness and hairiness do not completely blend, and the offspring do not regress to one mean form, but to two distinct forms.”

At about this time, Hugo de Vries and Carl Erich Correns began similar plant-breeding experiments. But, unlike Bateson, they were familiar with the extensive plant breeding experiments of Gregor Mendel in the 1860s, and they did not cite Bateson's work. Critically, Bateson gave a lecture to the Royal Horticultural Society in July 1899,[13] which was attended by Hugo de Vries, in which he described his investigations into discontinuous variation, his experimental crosses, and the significance of such studies for the understanding of heredity. He urged his colleagues to conduct large-scale, well-designed and statistically analysed experiments of the sort that, although he did not know it, Mendel had already conducted, and which would be "rediscovered" by de Vries and Correns just six months later.[10]

Bateson became famous as the outspoken Mendelian antagonist of Walter Raphael Weldon, his former teacher, and of Karl Pearson who led the biometric school of thinking. The debate centred on saltationism versus gradualism (Darwin had represented gradualism, but Bateson was a saltationist).[14] Later, Ronald Fisher and J.B.S. Haldane showed that discrete mutations were compatible with gradual evolution, helping to bring about the modern evolutionary synthesis.

Between 1900 and 1910 Bateson directed a rather informal "school" of genetics at Cambridge. His group consisted mostly of women associated with Newnham College, Cambridge, and included both his wife Beatrice, and her sister Florence Durham.[15][16] They provided assistance for his research program at a time when Mendelism was not yet recognised as a legitimate field of study. The women, such as Muriel Wheldale (later Onslow), carried out a series of breeding experiments in various plant and animal species between 1902 and 1910. The results both supported and extended Mendel's laws of heredity. Hilda Blanche Killby, who had finished her studies with the Newnham College Mendelians in 1901, aided Bateson in the replication of Mendel's crosses in peas. She conducted independent breeding experiments in rabbits and bantam fowl, as well. [17]

Bateson first suggested using the word "genetics" (from the Greek gennō, γεννώ; "to give birth") to describe the study of inheritance and the science of variation in a personal letter to Adam Sedgwick (1854–1913, zoologist at Cambridge, not the Adam Sedgwick (1785–1873) who had been Darwin's professor), dated 18 April 1905.[18] Bateson first used the term "genetics" publicly at the Third International Conference on Plant Hybridization in London in 1906.[19] Although this was three years before Wilhelm Johannsen used the word "gene" to describe the units of hereditary information, De Vries had introduced the word "pangene" for the same concept already in 1889, and etymologically the word genetics has parallels with Darwin's concept of pangenesis. Bateson and Edith Saunders also coined the word "allelomorph" ("other form"), which was later shortened to allele.[20]

Bateson co-discovered genetic linkage with Reginald Punnett and Edith Saunders, and he and Punnett founded the Journal of Genetics in 1910. Bateson also coined the term "epistasis" to describe the genetic interaction of two independent loci.

William Bateson became director of the John Innes Horticultural Institution in 1910 and moved with his family to Merton Park in Surrey. He was director there until his sudden death in February 1926. During his time at the John Innes Horticultural Institution he became interested in the chromosome theory of heredity and promoted the study of cytology by the appointment of W. C. F. Newton[21] and in 1923 Cyril Dean Darlington.[22]

In his later years he was a friend and confidant of the German Erwin Baur. Their correspondence includes their discussion of eugenics.

His son was the anthropologist and cyberneticist Gregory Bateson.

In June 1894 he was elected a Fellow of the Royal Society[23] and won their Darwin Medal in 1904 and their Royal Medal in 1920. He also delivered their Croonian lecture in 1920. He was the president of the British Association in 1913–1914.[24] He founded The Genetics Society in 1919, one of the first learned societies dedicated to Genetics.[25] The John Innes Centre holds a Bateson Lecture in his honour at the annual John Innes Symposium.[26]

He was an atheist.[27][28]

• Materials for the Study of Variation: Treated with Especial Regard to Discontinuity in the Origin of Species (1894)
• The Methods and Scope of Genetics: An Inaugural Lecture Delivered 23 October 1908 (1908)
• Mendel's Principles of Heredity (1913)
• Problems of Genetics (1913)
• Mendel's Principles of Heredity - A Defence, with a Translation of Mendel's Original Papers on Hybridisation Cambridge University Press

• Bateson–Dobzhansky–Muller model
• Lucien Cuénot

• Schwartz JH (February 2007). "Recognizing William Bateson's contributions". Science. 315 (5815): 1077. doi:10.1126/science.315.5815.1077b. PMID 17322045.
• Harper PS (October 2005). "William Bateson, human genetics and medicine". Human Genetics. 118 (1): 141–51. doi:10.1007/s00439-005-0010-3. PMID 16133188.
• Hall BK (January 2005). "Betrayed by Balanoglossus: William Bateson's rejection of evolutionary embryology as the basis for understanding evolution". Journal of Experimental Zoology Part B: Molecular and Developmental Evolution. 304 (1): 1–17. doi:10.1002/jez.b.21030. PMID 15668943.
• Bateson P (August 2002). "William Bateson: a biologist ahead of his time" (PDF). Journal of Genetics. 81 (2): 49–58. doi:10.1007/BF02715900. PMID 12532036.
• Gillham NW (December 2001). "Evolution by jumps: Francis Galton and William Bateson and the mechanism of evolutionary change". Genetics. 159 (4): 1383–92. PMC 1461897. PMID 11779782.
• Richmond ML (March 2001). "Women in the early history of genetics. William Bateson and the Newnham College Mendelians, 1900–1910". Isis. 92 (1): 55–90. doi:10.1086/385040. PMID 11441497.
• Harvey RD (January 1995). "Pioneers of genetics: a comparison of the attitudes of William Bateson and Erwin Baur to eugenics". Notes and Records of the Royal Society of London. 49 (1): 105–17. doi:10.1098/rsnr.1995.0007. PMID 11615278.
• Olby R (October 1987). "William Bateson's introduction of Mendelism to England: a reassessment". British Journal for the History of Science. 20 (67): 399–420. doi:10.1017/S0007087400024201. PMID 11612343.
• Harvey RD (November 1985). "The William Bateson letters at the John Innes Institute". The Mendel Newsletter (25): 1–11. PMID 11620779.
• Cock AG (January 1983). "William Bateson's rejection and eventual acceptance of chromosome theory". Annals of Science. 40: 19–59. doi:10.1080/00033798300200111. PMID 11615930.
• Cock AG (1980). "William Bateson's pilgrimages to Brno. Cesty Williama Batesona do Brna". Folia Mendeliana. 65 (15): 243–50. PMID 11615869.
• Cock AG (June 1977). "The William Bateson papers". The Mendel Newsletter. 14: 1–4. PMID 11609980.
• Darden L (1977). "William Bateson and the promise of Mendelism". Journal of the History of Biology. 10 (1): 87–106. doi:10.1007/BF00126096. PMID 11615639.
• Cock AG (1973). "William Bateson, Mendelism and biometry". Journal of the History of Biology. 6: 1–36. doi:10.1007/BF00137297. PMID 11609732.

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Wikiquote has quotations related to: William Bateson

• Works by William Bateson at Project Gutenberg
• Works by or about William Bateson at Internet Archive
• Works by William Bateson at LibriVox (public domain audiobooks)
• William Bateson 1894. Materials for the Study of Variation, treated with special regard to discontinuity in the Origin of Species
• William Bateson 1902. Mendel's Principles of Heredity, a defence
•  Chisholm, Hugh, ed. (1922). "Bateson, William" . Encyclopædia Britannica (12th ed.). London & New York.
• Punnett and Bateson
• Opposition to Bateson – Documents by, or about, Bateson are on Donald Forsdyke's webpages
• Bateson-Punnett Notebooks digitised in Cambridge Digital Library