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Sir Francis Galton F.R.S. (February 16, 1822 – January 17, 1911), half-cousin of Charles Darwin, was an English Victorian polymath, anthropologist, eugenicist, tropical explorer, geographer, inventor, meteorologist, proto-geneticist, psychometrician, and statistician.
Galton produced over 340 papers and books throughout his lifetime and was knighted in 1909. He created the statistical concepts of regression and correlation and discovered regression toward the mean, was the first to apply statistical methods to the study of human differences and heredity, and introduced the use of questionnaires and surveys for collecting data on human communities, which he needed for genealogical and biographical works and for his anthropometric studies. He was a pioneer in eugenics, coining the term "eugenics" and the phrase "nature versus nurture". As an investigator of the human mind, he founded psychometrics (the science of measuring mental faculties) and differential psychology (the branch of psychology that concerns itself with psychological differences between people, rather than on common traits). He devised a method for classifying fingerprints useful in forensics. As the initiator of scientific meteorology: he invented the weather map, proposed a theory of anticyclones and was the first to establish a complete record of short-term climatic phenomena on a European scale.
- 1 Biography
- 2 Honors and impact
- 3 See also
- 4 References & Bibliography
- 5 Key texts
- 6 Additional material
- 7 External links
He was born near Sparkbrook, Birmingham and was Charles Darwin's half-cousin, sharing the common grandparent Erasmus Darwin. His father was Samuel Tertius Galton, son of Samuel "John" Galton. The Galtons were famous and highly successful Quaker gun-manufacturers and bankers, while the Darwins were distinguished in medicine and science.
Both families boasted Fellows of the Royal Society and members who loved to invent in their spare time. Both Erasmus Darwin and Samuel Galton were founder members of the famous Lunar Society of Birmingham, whose members included Boulton, Watt, Wedgwood, Priestley, Edgeworth and other distinguished scientists and industrialists. Likewise, both families boasted literary talent, with Erasmus Darwin notorious for composing lengthy technical treatises in verse, and Aunt Mary-Anne Galton known for her writing on aesthetics and religion, and her notable autobiography detailing the unique environment of her childhood populated by Lunar Society members.
Galton was by many accounts a child prodigy--he was reading by the age of 2, at age 5 he knew some Greek, Latin and long division, and by the age of six he had moved on to adult books, including Shakespeare for pleasure, and poetry, which he quoted at length. He attended numerous schools, but chafed at the narrow classical curriculum, which bored him. His parents pressed him to enter the medical profession, and he studied for two years at Birmingham General hospital and King's College Medical School in London. He followed this up with mathematical studies at Trinity College, University of Cambridge, from 1840 to early 1844. A severe nervous breakdown altered his original intention to try for honours. He elected instead to take a "poll" (pass) B.A. degree, like his cousin Charles Darwin. (Following the Cambridge custom, he was awarded an M.A. without further study, in 1847). He then briefly resumed his medical studies. The death of his father in 1844 left him financially independent but emotionally destitute, and he terminated his medical studies entirely, turning to foreign travel, sport and technical invention.
In his early years Galton was an enthusiastic traveler, and made a notable solo trip through Eastern Europe to Constantinople, before going up to Cambridge. In 1845 and 1846 he went to Egypt and traveled down the Nile to Khartoum in the Sudan, and from there to Beirut, Damascus and down the Jordan. In 1850 he joined the Royal Geographical Society, and over the next two years mounted a long and difficult expedition into then little-known South-Western Africa (now Namibia). He wrote a successful book on his experience, "Narrative of an Explorer in Tropical South Africa". He was awarded the Royal Geographical Society's gold medal in 1853 and the Silver Medal of the French Geographical Society for his pioneering cartographic survey of the region. This established his reputation as a geographer and explorer. He proceeded to write the best-selling The Art of Travel, a handbook of practical advice for the Victorian on the move, which went through many editions and still reappears in print today.
In 1853 he married Louisa Butler, who also came from an intellectually distinguished family, and after a honeymoon in Florence and Rome, they took up residence in South Kensington, where he remained almost until his death in 1911. They had no children.
Galton was a polymath who made important contributions in many fields of science, including geography, statistics, biology and anthropology. Much of this was influenced by his penchant for counting or measuring. The result was a blizzard of discoveries and investigations as varied as detailed research into the perfect cup of tea and his discovery of the anti-cyclone. He became very active in the British Association for the Advancement of Science, presenting many papers on wide variety of topics at its meeings from 1858 to 1899. He was the general secretary from 1863 to 1867, president of the Geographical section in 1867 and 1872, and president of the Anthropological Section in 1877 and 1885.
Heredity, historiometry and eugenics
The event that changed his life and gave him direction was the publication by his cousin Charles Darwin of The Origin of Species in 1859. Galton was gripped by the work, especially the first chapter on Variation under Domestication concerning the breeding of domestic animals. He devoted much of the rest of his life to exploring its implications for human populations, which Darwin had only hinted at. In doing so, he ultimately established a research programme that came to embrace all aspects of human variation, from mental characteristics to height, from facial images to fingerprint patterns. This required inventing novel measures of traits, devising large-scale collection of data using those measures, and in the end the discovery of new statistical techniques for describing and understanding the data gathered.
Galton was interested at first in the question of whether human ability was indeed hereditary, and proposed to count the number of the relatives of various degrees of eminent men. If the qualities were hereditary, he reasoned, there should be more eminent men among the relatives, than among the general population. He obtained his data from various biographical sources and compared the results that he tabulated in various ways. This pioneering work was described in detail in his book Hereditary Genius in 1869. He showed, among other things, that the numbers of eminent relatives dropped off when going from the first degree to the second degree relatives, and from the second degree to the third. He took this as evidence of the inheritance of abilities. He also proposed adoption studies, including trans-racial adoption studies, to separate out the effects of heredity and environment.
The method used in Hereditary Genius has been described as the first example of historiometry. To bolster these results, and to attempt to make a distinction between 'nature' and 'nurture' (he was the first to apply this phrase to the topic) he devised a questionnaire that he sent out to 190 Fellows of the Royal Society. He tabulated characteristics of their families, such as birth order and the occupation and race of their parents. He attempted to discover if their interest in science was "innate" or due to the encouragements of others. The studies were published as a book, English Men of Science: Their Nature and Nurture in 1874. In the end, it illuminated the nature versus nurture question, though it did not settle it, and provided some fascinating data on the sociology of scientists of the time.
Galton recognized the limitations of his methods in these two works, and believed the question could be better studied by comparisons of twins. His method was to see if twins who were similar at birth diverged in dissimilar environments, and whether twins dissimilar at birth converged when reared in similar environments. He again used the method of questionnaires to gather various sorts of data, which were tabulated and described in a paper "The History of Twins" in 1875. In so doing he anticipated the modern field of behavior genetics, which relies heavily on twin studies. He concluded that the evidence favored nature rather than nurture.
Galton invented the term eugenics in 1883 and set down many of his observations and conclusions in a book, Inquiries in Human Faculty and its Development. He believed that a scheme of 'marks' for family merit should be defined, and early marriage between families of high rank be encouraged by provision of monetary incentives. He pointed out some of the dysgenic tendencies in British society, such as the late marriages of eminent people, and the paucity of their children. He advocated encouraging eugenic marriages by supplying incentives for the able to have children.
His ideas would greatly influence similar movements in many other countries. He cautioned, however, against the sorts of extreme proposals that the eugenics movement soon produced when it was taken up enthusiastically by socialists such as George Bernard Shaw, HG Wells, and their followers, who were enthusiastic about state compulsion and social engineering.
Galton's study of human abilities ultimately led to the foundation of differential psychology, the formulation of the first mental tests, and the scientific study of human intelligence. Many of his insights have taken many decades of research to verify; for example, his study of reaction time as a measure of intelligence was only vindicated a hundred years later, as was his assertion of a relationship between head size on intelligence (MRI measures are now known to correlate at approximately 0.4 with I.Q.).
Galton conducted wide-ranging inquiries into heredity. In the process he was able to refute Darwin's theory of pangenesis. Darwin had proposed as part of this theory that certain particles, which he called 'gemmules' moved throughout the body and were also responsible for the inheritance of acquired characteristics. Galton, in consultation with Darwin, set out to see if they were transported in the blood. In a long series of experiments in 1869 to 1871, he transfused the blood between dissimilar breeds of rabbits, and examined the features of their offspring. He found no evidence of characters transmitted in the transfused blood. Galton explicitly rejected the idea of the inheritance of acquired characteristics (Lamarckism), and was an early proponent of "hard heredity" through selection alone.
Galton came close to rediscovering Mendel's particulate theory of inheritance, but was prevented from making the final breakthrough in this regard because of his focus on continuous, rather than discrete, traits (now known as polygenic traits). He went on to found the Biometric approach to the study of heredity, distinguished by its use of statistical techniques to study continuous traits and population-scale aspects of heredity. This approach was later taken up enthusiastically by Karl Pearson and W.F.R. Weldon; together, they founded the highly influential journal Biometrika in 1901. (R.A. Fisher would later show how the biometrical approach could be reconciled with the Mendelian approach.) The statistical techniques that Galton invented (correlation, regression - see below) and phenomena he established (regression to the mean) formed the basis of the biometric approach and are now essential tools in all the social sciences.
Galton also devised a technique called composite photography which he believed could be used to identify 'types' by appearance, which he hoped would aid medical diagnosis, and even criminology though the identification of typical criminal faces. However he was forced to conclude after exhausitve experimentation that such types were not attainable in practice.
Statistics, regression and correlation
His inquiries into the mind involved detailed recording of subjects' own explanations for whether and how their minds dealt with things such as mental imagery, which he elicited by his pioneering use of the questionnaire.
Galton invented the use of the regression line, and was the first to describe and explain the common phenomenon of regression toward the mean, which he first observed in his experiments on the size of the seeds of successive generations of sweet peas. In the 1870s and 1880s he was a pioneer in the use of normal distribution to fit histograms of actual tabulated data. He invented the Quincunx, a pachinko-like device, also known as the bean machine, as a tool for demonstrating the law of error and the normal distribution. He also discovered the properties of the bivariate normal distribution and its relationship to regression analysis.
After examining forearm and height measurements, Galton introduced the concept of correlation in 1888. His statistical study of the probability of extinction of surnames led to the concept of Galton-Watson stochastic processes.
He also developed early theories of ranges of sound and hearing, and collected large quantities of of anthropometric data from the public through his popular and long-running Anthropometric Laboratory. It was not until 1985 that this data was analyzed in its entirety.
In a Royal Institution paper in 1888 and three books (1892, 1893 and 1895) Galton estimated the probability of two persons having the same fingerprint and studied the heritability and racial differences in fingerprints. He wrote about the technique (inadvertently sparking a controversy between Herschel and Faulds that was to last until 1917), identifying common pattern in fingerprints and devising a classification system that survives to this day. The method of identifying criminals by their fingerprints had been introduced in the 1860s by William Herschel in India, and their potential use in forensic work was first proposed by Dr Henry Faulds in 1880, but Galton was the first to place the study on a scientific footing, without which it would not have been accepted by the courts.
In an effort to reach a wider audience, Galton worked on a novel entitled ‘Kantsaywhere’, from May until December of 1910. The novel described a utopia organized by a eugenic religion, designed to breed fitter and smarter humans. His unpublished notebooks show that this was an expansion of material he had been composing since at least 1901. He offered it to Methuen for publication, but they showed little enthusiasm. Galton wrote to his niece that it should be either “smothered or superseded”. His niece appears to have burnt most of the novel, offended by the love scenes, but large fragments survive (see ).
Honors and impact
He received in 1853 the highest award from the Royal Geographical Society, one of two gold medals awarded that year, for his explorations and map-making of southwest Africa. He was elected a member of the prestigious Athenaeum Club in 1855 and made a Fellow of the Royal Society in 1860. Over the course of his career he received every major award the Victorian scientific establishment could offer, including the Copley medal of the Royal Society. He was knighted in 1909. His statistical heir Karl Pearson, first holder of the Galton Chair of Eugenics at University College London, wrote a three-volume biography of Galton after his death (1914, 1924, 1930). The eminent psychometrician Lewis Terman estimated that his childhood I.Q. was on the order of 200, based on the fact that he consistently performed mentally at roughly twice his chronological age.
References & Bibliography
- Galton, F. (1884) Hereditary Genius, New York: Appleton.
- Galton, F. (1888) Co-relations and their measurement, chiefly from anthropometric data. In: J.J. Jenkins and D.G. Paterson (eds) (1961) Studies in Individual Differences, New York: Appleton-Century-Crofts.
- Galton, F. (1893) Inquiries into Human Faculty and its Development, London: McMillan,
- Galton, F. (1869) Classification of men according to their natural gifts. In: J.J. Jenkins and D.G. Paterson (eds) (1961) Studies in Individual Differences, New York: Appleton-Century-Crofts.
- Gillham, Nicholas Wright (2001). A Life of Sir Francis Galton: From African Exploration to the Birth of Eugenics. Oxford University Press: New York. ISBN 0195143655
- Bulmer, Michael (2003). Francis Galton: Pioneer of Heredity and Biometry. Johns Hopkins University Press. ISBN 0801874033
- Galton's Complete Works at Galton.org (including all his published books, all his published scientific papers, and popular peridocal and newspaper writing, as well as other previously unpublished work and biographical material).
- Works by Francis Galton at Project Gutenberg
- Portraits of Galton from the National Portrait Gallery (United Kingdom)
- The Galton laboratory homepage (originally The Francis Galton Laboratory of National Eugenics) at University College London
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