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The Lysenko affair was perhaps the most bizarre chapter in the history of modern science. For thirty years, until 1965, Soviet genetics was dominated by a fanatical agronomist who achieved dictatorial power over genetics and plant science as well as agronomy. "A standard source both for Soviet specialists and for sociologists of science."—American Journal of Sociology "Joravsky has produced . . . the most detailed and authoritative treatment of Lysenko and his view on genetics."—New York Times Book Review
Ukrainian agronomist Lysenko was the leader of an influential Soviet agrobiological school that rejected standard genetics and instead promoted a brand of pseudoscience that held sway among Soviet biologists for over twenty-five years. The dominance of Lysenko's pseudoscientific ideas has been characterized as the biggest scandal of 20th-century science. That it happened under a regime that took particular pride in building its policy on science makes the affair particularly interesting, even for Western observers free from totalitarian governments. The Soviet Union was the first country with a government policy and large-scale public support for science. Agricultural science was a main showcase for this unprecedented investment in science. Unlike other scholars who have studied Lysenko's influence, Roll-Hansen argues that the corruption of Soviet biology should not be explained primarily as the result of Stalin's despotism and the willful intervention of party hacks into the objective methods of science. Because of ideological and economic pressures to produce tangible benefits to society, says Roll-Hansen, Soviet biology, under Lysenko's leadership, succumbed to a wishful-thinking syndrome, which paved the way for Lysenko. By such thinking scientific objectivity was compromised in favor of ideas that accorded with progressive political ideals and economic goals as determined by the ruling politburo. Roll-Hansen draws provocative parallels between Lysenko's bad science in mid-20th-century Russia and attempts by Western theorists today to construe science in social constructivist terms or to exercise political control over scientific research. - from publisher description.
The Soviet agronomist Trofim Lysenko became one of the most notorious figures in twentieth-century science after his genetic theories were discredited decades ago. Yet some scientists, even in the West, now claim that discoveries in the field of epigenetics prove that he was right after all. Seeking to get to the bottom of Lysenko’s rehabilitation in certain Russian scientific circles, Loren Graham reopens the case, granting his theories an impartial hearing to determine whether new developments in molecular biology validate his claims. In the 1930s Lysenko advanced a “theory of nutrients” to explain plant development, basing his insights on experiments which, he claimed, showed one could manipulate environmental conditions such as temperature to convert a winter wheat variety into a spring variety. He considered the inheritance of acquired characteristics—which he called the “internalization of environmental conditions”—the primary mechanism of heredity. Although his methods were slipshod and his results were never duplicated, his ideas fell on fertile ground during a time of widespread famine in the Soviet Union. Recently, a hypothesis called epigenetic transgenerational inheritance has suggested that acquired characteristics may indeed occasionally be passed on to offspring. Some biologists dispute the evidence for this hypothesis. Loren Graham examines these arguments, both in Russia and the West, and shows how, in Russia, political currents are particularly significant in affecting the debates.
In this book, Dr. Soyfer, a former Soviet scientist who had met Lysenko, documents the destruction of science and scientists under the influence of Lysenko. Contrary to numerous opinions, Lysenko was an poorly educated agronomist who happened to have been in the right place at the right time: In the '30s, "Pravda" wrote him up as a pioneering scientist. Recognizing that newspapers and popular support could fuel his rise to the top of Soviet society, he set about making a name for himself as a scientist in non-academic journals and periodicals. His peasant upbringing and miraculous findings--never empirically proven or duplicated--made him a star proletarian scientist, the kind needed to bring about true Communism. Along his way to the top, he was assisted by many people who thought him a sincere, but ill preparted, scientist; he later had many of these people purged after gaining the almost total support of Stalin and Khrushchev. His grand claims of producing superior cattle and wheat, among other things, consistently failed, yet no one dared oppose or even question his policies. Whether to propel himself upward, bring down the academics he apparently detested, or protect himself and his "science", Lysenko nearly eliminated all serious work in genetics, agriculture, and biology from the '30s into the '60s. Numerous scientists were exiled, fired, or executed during his reign as the people's scientist; according to the author, the effects still linger in Russia. An amazing story of how, when politics decrees what science is acceptable and how it is going to work in the political paradigm, the results can be tragic.
“One of the finest, most gripping surveys of the history of Russian science in the twentieth century.” —Douglas Smith, author of Former People: The Final Days of the Russian Aristocracy Stalin and the Scientists tells the story of the many gifted scientists who worked in Russia from the years leading up to the revolution through the death of the “Great Scientist” himself, Joseph Stalin. It weaves together the stories of scientists, politicians, and ideologues into an intimate and sometimes horrifying portrait of a state determined to remake the world. They often wreaked great harm. Stalin was himself an amateur botanist, and by falling under the sway of dangerous charlatans like Trofim Lysenko (who denied the existence of genes), and by relying on antiquated ideas of biology, he not only destroyed the lives of hundreds of brilliant scientists, he caused the death of millions through famine. But from atomic physics to management theory, and from radiation biology to neuroscience and psychology, these Soviet experts also made breakthroughs that forever changed agriculture, education, and medicine. A masterful book that deepens our understanding of Russian history, Stalin and the Scientists is a great achievement of research and storytelling, and a gripping look at what happens when science falls prey to politics. Longlisted for the Baillie Gifford Prize for Non-Fiction in 2016 A New York Times Book Review “Paperback Row” selection “Ings’s research is impressive and his exposition of the science is lucid . . . Filled with priceless nuggets and a cast of frauds, crackpots and tyrants, this is a lively and interesting book, and utterly relevant today.” —The New York Times Book Review “A must read for understanding how the ideas of scientific knowledge and technology were distorted and subverted for decades across the Soviet Union.” —The Washington Post
Scientists act within a social context and from a philosophical perspective that is inherently political. Whether they realize it or not, scientists always choose sides. The Dialectical Biologist explores this political nature of scientific inquiry, advancing its argument within the framework of Marxist dialectic. These essays stress the concepts of continual change and codetermination between organism and environment, part and whole, structure and process, science and politics. Throughout, this book questions our accepted definitions and biases, showing the self-reflective nature of scientific activity within society.
No one with an interest in Soviet writing of the last thirty years will want to ignore this book.
Does science work best in a democracy? Were 'Soviet' or 'Nazi' science fundamentally different from science in the USA? These questions have been passionately debated in the recent past. Particular developments in science took place under particular political regimes, but they may or may not have been directly determined by them. Science and Ideology brings together a number of comparative case studies to examine the relationship between science and the dominant ideology of a state. Cybernetics in the USA is compared to France and the Soviet Union. Postwar Allied science policy in occupied Germany is juxtaposed to that in Japan. The essays are narrowly focussed, yet cover a wide range of countries and ideologies. The collection provides a unique comparative history of scientific policies and practices in the 20th century.
J. D. Bernal's important and ambitious work, The Social Function of Science, was first published in January 1939. As the subtitle -What Science Does, What Science Could Do - suggests it is in two parts. Both have eight chapters. Part 1: What Science Does: Introductory, Historical, The Existing Organization of Scientific Research in Britain, Science in Education, The Efficiency of Scientific Research, The Application of Science, Science and War and International Science. Part 11: What Science Could Do: The Training of the Scientist, The Reorganization of Research, Scientific Communication, The Finance of Science, The Strategy of Scientific Advance; Science in the Service of Man, Science and Social Transformation and The Social Function of Science. To quote Bernal's biographer, Andrew Brown, 'The Social Function of Science . . . was Bernal's attempt to ensure that science would no longer be just a protected area of intellectual inquiry, but would have as an inherent function the improvement of life for mankind everywhere. It was a groundbreaking treatise both in exploring the scope of science and technology in fashioning public policy, with Bernal arguing that science is the chief agent of change in society, and in devising policies that would optimize the way science was organized. The sense of impending war clearly emerges. Bernal deplored the application of scientific discoveries in making war ever more destructive, while acknowledging that the majority of scientific and technical breakthroughs have their origins in military exigencies, both because of the willingness to spend money and the premium placed on novelty during wartime.' Anticipating by two decades the schism C. P. Snow termed 'The Two Cultures', Bernal remarked that 'highly developed science stands almost isolated from a traditional literary culture.' He found that wrong. Again, quoting Andrew Brown, 'to him, science was a creative endeavour that still depended on inspiration and talent, just as much as in painting, writing or composing.' The importance of this book was such that twenty-five years after its publication, a collection of essays, The Science of Science, was published, in part in celebration, but also to explore many of the themes Bernal had first developed.
The theoretical principles of vernalization; Plant breeding and the theory of phasic development of plants; The reorganization of seed growing; The intravarietal crossing of self-pollinating plants; Two trends in genetics; Collective-farm laboratories and agronomic science; Intravarietal crossing and mendel's so-called "law" of segregation; The creator of soviet agrobiology (On the occasion of the fourth anniversary of the death of Ivan Vladimirovich Michurin); Michurin's theory at the all-union agricultural exhibition; Ways of controlling plant organisms; New achievements in controlling the nature of plants; Organism and environment; Engels and certain problems of darwinism; What is michurin genetics?; K. A. Timiryazev and the tasks of our agrobiology; Hered ity and its variability; Natural selection and intraspecific competition; Genetics; The tasks of the lenin academy of agricultural sciences of the U.S.S.R.; Why bourgeois science is up in arms against the works of soviet scientists; The situation in biological science; Experimental hill sowing of forest belts; New developments in the science of biological species; Vitality of plant and animal organisms; The conversion of nonwintering spring varieties into winterhardy winter varieties.