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Erwin Schrödinger's book What is Life? had a tremendous influence on the development of molecular biology, stimulating scientists such as Watson and Crick to explore the physical basis of life. Much of the appeal of Schrödinger's book lay in its approach to the central problems in biology - heredity and how organisms use energy to maintain order - from a physicist's perspective. At Trinity College, Dublin a number of outstanding scientists from a range of disciplines gathered to celebrate the fiftieth anniversary of What is Life? and following Schrödinger's example fifty years previously, presented their views on the current central problems in biology. The contributors to this volume include Stephen Jay Gould, Roger Penrose, Jared Diamond, Manfred Eigen, John Maynard Smith, Christien de Duve and Lewis Wolpert. This collection is essential reading for anyone interested in biology and its future.
Research in biology and all basic sciences has undergone profound transformations in recent decades. We have seen the development of extremely sophisticated techniques, allowing us to study, in an objective manner, questions that were still considered science fiction at the end of the 20th century. All of this has allowed us to develop an in-depth knowledge of vast subjects, such as the biology of the brain, for example. Fifty Years of Evolution in Biological Research presents a panorama of these different technical advances. However, at the same time, there has been an increase in the number of constraints on researchers, a monetization of research and a correlative pressure to continually publish in more prestigious journals. This has resulted in a certain degradation of the quality of research activity. This book analyzes this evolution and proposes solutions.
"A new, revised edition of Peter and Rosemary Grant's synthesis of their decades of research on Daphne Island"--
In this personal history, one of the pioneers in population genetics recounts the evolution of his ideas about the effects of genetic variability on a population. Tracing the results of successive experiments over the years, it is, like the author's career, highly original.
Invasion ecology is the study of the causes and consequences of the introduction of organisms to areas outside their native range. Interest in this field has exploded in the past few decades. Explaining why and how organisms are moved around the world, how and why some become established and invade, and how best to manage invasive species in the face of global change are all crucial issues that interest biogeographers, ecologists and environmental managers in all parts of the world. This book brings together the insights of more than 50 authors to examine the origins, foundations, current dimensions and potential trajectories of invasion ecology. It revisits key tenets of the foundations of invasion ecology, including contributions of pioneering naturalists of the 19th century, including Charles Darwin and British ecologist Charles Elton, whose 1958 monograph on invasive species is widely acknowledged as having focussed scientific attention on biological invasions.
Knoll explores the deep history of life from its origins on a young planet to the incredible Cambrian explosion, with the very latest discoveries in paleontology integrated with emerging insights from molecular biology and earth system science. 100 illustrations.
A game-changing book on the origins of life, called the most important scientific discovery 'since the Copernican revolution' in The Observer.
The Road to Discovery: A Short History of Cold Spring Harbor Laboratory was published in 2015 to mark the 125th anniversary of Cold Spring Harbor Laboratory. At Cold Spring Harbor, in a bucolic setting on the north shore of New York's Long Island, two interdependent research centers in biology were founded as Charles Darwin's insights into heredity and evolution shook the world of science. Fifty years later, those centers would emerge as a single institution that would cradle another revolution, the new science of molecular biology, and advance to world renown in research and professional education. It is a remarkable story, with a path of progress that was neither simple nor assured. The Road to Discovery traces half a century of changes in name, leadership, governance, and financial fortune. And scientific missteps, most notoriously in eugenics, were triumphed by innovative work in genetics, human metabolism, and cancer. From the 1940s through the 1960s, the Laboratory was home to fundamental discoveries about the nature of genetic material and a cauldron of critical assessment of ideas about genes by sharp-tongued summer visitors. James D. Watson, a junior member of that group, would go on to deduce the structure of DNA with Francis Crick in 1953 and help create the new field of molecular genetics before returning to Cold Spring Harbor as Director 15 years later. As the book shows, his "Bold Plan" would inspire, cajole, and goad into existence an era of expansion, new research directions, and initiatives in conferences, courses, publishing, and education that redefined the scope of the Laboratory. Under Bruce Stillman's leadership, that scope has grown still more, making the Laboratory unique among research institutions worldwide--envied, imitated, but not reproduced. The book's author is the science historian Jan Witkowski. His knowledge of the subject is wide and his affection for it deep. He brings to his task insights that only a decades-long career as a staff member can provide. For over a century, the Laboratory has been influenced by exceptional personalities, outstanding achievements, and dramatic events. The Road to Discovery captures that history in a lively narrative illuminated by vignettes on the importance of individual scientists and their discoveries. Abundantly documented with material from the Laboratory's archives, it is an accessible book that will appeal to anyone interested in the development of biomedical science and biotechnology through the 20th century to the present day.
This new edition of Invasion Ecology provides a comprehensive and updated introduction to all aspects of biological invasion by non-native species. Highlighting important research findings associated with each stage of invasion, the book provides an overview of the invasion process from transportation patterns and causes of establishment success to ecological impacts, invader management, and post-invasion evolution. The authors have produced new chapters on predicting and preventing invasion, managing and eradicating invasive species, and invasion dynamics in a changing climate. Modern global trade and travel have led to unprecedented movement of non-native species by humans with unforeseen, interesting, and occasionally devastating consequences. Increasing recognition of the problems associated with invasion has led to a rapid growth in research into the dynamics of non-native species and their adverse effects on native biota and human economies. This book provides a synthesis of this fast growing field of research and is an essential text for undergraduate and graduate students in ecology and conservation management. Additional resources are available at www.wiley.com/go/invasionecology
Since George Gaylord Simpson published Tempo and Mode in Evolution in 1944, discoveries in paleontology and genetics have abounded. This volume brings together the findings and insights of today's leading experts in the study of evolution, including Ayala, W. Ford Doolittle, and Stephen Jay Gould. The volume examines early cellular evolution, explores changes in the tempo of evolution between the Precambrian and Phanerozoic periods, and reconstructs the Cambrian evolutionary burst. Long-neglected despite Darwin's interest in it, species extinction is discussed in detail. Although the absence of data kept Simpson from exploring human evolution in his book, the current volume covers morphological and genetic changes in human populations, contradicting the popular claim that all modern humans descend from a single woman. This book discusses the role of molecular clocks, the results of evolution in 12 populations of Escherichia coli propagated for 10,000 generations, a physical map of Drosophila chromosomes, and evidence for "hitchhiking" by mutations.