In describing the career of Abraham Yagel, a Jewish physician, kabbalist, and naturalist who lived in northern Italy from 1553 to about 1623, David Ruderman observes the remarkable interplay between early modern scientific thought and religious and occult traditions from a wholly new perspective: that of Jewish intellectual life.
Whether he was writing about astronomical discoveries, demons, marvelous creatures and prodigies of nature, the uses of magic, or reincarnation, Yagel made a consistent effort to integrate empirical study of nature with kabbalistic and rabbinic learning. Yagel's several interests were united in his belief in the interconnectedness of all thing—a belief, shared by many Renaissance thinkers, that turns natural phenomena into “signatures” of the divine unity of all things. Ruderman argues that Yagel and his coreligionists were predisposed to this prevalent view because of occult strains in traditional Jewish thought He also suggests that underlying Yagel's passion for integrating and correlating all knowledge was a powerful psychological need to gain cultural respect and acceptance for himself and for his entire community, especially in a period of increased anti-Semitic agitation in Italy.
Yagel proposed a bold new agenda for Jewish culture that underscored the religious value of the study of nature, reformulated kabbalist traditions in the language of scientific discourse so as to promote them as the highest form of human knowledge, and advocated the legitimate role of the magical arts as the ultimate expression of human creativity in Judaism. This portrait of Yagel and his intellectual world will well serve all students of late Renaissance and early modern Europe.
Kant sought throughout his life to provide a philosophy adequate to the sciences of his time—especially Euclidean geometry and Newtonian physics. In this new book, Michael Friedman argues that Kant’s continuing efforts to find a metaphysics that could provide a foundation for the sciences is of the utmost importance in understanding the development of his philosophical thought from its earliest beginnings in the thesis of 1747, through the Critique of Pure Reason, to his last unpublished writings in the Opus postumum.
Previous commentators on Kant have typically minimized these efforts because the sciences in question have since been outmoded. Friedman argues that, on the contrary, Kant’s philosophy is shaped by extraordinarily deep insight into the foundations of the exact sciences as he found them, and that this represents one of the greatest strengths of his philosophy. Friedman examines Kant’s engagement with geometry, arithmetic and algebra, the foundations of mechanics, and the law of gravitation in Part One. He then devotes Part Two to the Opus postumum, showing how Kant’s need to come to terms with developments in the physics of heat and in chemistry formed a primary motive for his projected Transition from the Metaphysical Foundations of Natural Science to Physics.
Kant and the Exact Sciences is a book of high scholarly achievement, argued with impressive power. It represents a great advance in our understanding of Kant’s philosophy of science.
The new field of evolutionary developmental biology is one of the most exciting areas of contemporary biology. The fundamental principle of evolutionary developmental biology ("evo-devo") is that evolution acts through inherited changes in the development of the organism. "Evo-devo" is not merely a fusion of the fields of developmental and evolutionary biology, the grafting of a developmental perspective onto evolutionary biology, or the incorporation of an evolutionary perspective into developmental biology. Evo-devo strives for a unification of genomic, developmental, organismal, population, and natural selection approaches to evolutionary change. It draws from development, evolution, paleontology, ecology, and molecular and systematic biology, but has its own set of questions, approaches, and methods.
Keywords and Concepts in Evolutionary Developmental Biology is the first comprehensive reference work for this expanding field. Covering more than fifty central terms and concepts in entries written by leading experts, Keywords offers an overview of all that is embraced by this new subdiscipline of biology, providing the core insights and ideas that show how embryonic development relates to life-history evolution, adaptation, and responses to and integration with environmental factors.
In science, more than elsewhere, a word is expected to mean what it says, nothing more, nothing less. But scientific discourse is neither different nor separable from ordinary language—meanings are multiple, ambiguities ubiquitous. Keywords in Evolutionary Biology grapples with this problem in a field especially prone to the confusion engendered by semantic imprecision.
Written by historians, philosophers, and biologists—including, among others, Stephen Jay Gould, Diane Paul, John Beatty, Robert Richards, Richard Lewontin, David Sloan Wilson, Peter Bowler, and Richard Dawkins—these essays identify and explicate those terms in evolutionary biology which, though commonly used, are plagues by multiple concurrent and historically varying meanings. By clarifying these terms in their many guises, the editors Evelyn Fox Keller and Elisabeth Lloyd hope to focus attention on major scholarly problems in the field—problems sometimes obscured, sometimes reveals, and sometimes even created by the use of such equivocal words. “Competition,” “adaptation,” and “fitness,” for instance, are among the terms whose multiple meaning have led to more than merely semantic debates in evolutionary biology.
Exploring the complexity of keywords and clarifying their role in prominent issues in the field, this book will prove invaluable to scientists and philosophers trying to come to terms with evolutionary theory; it will also serve as a useful guide to future research into the way in which scientific language works.
A historian of science examines key public debates about the fundamental nature of humans to ask why a polarized discourse about nature versus nurture became so entrenched in the popular sciences of animal and human behavior.
Are humans innately aggressive or innately cooperative? In the 1960s, bestselling books enthralled American readers with the startling claim that humans possessed an instinct for violence inherited from primate ancestors. Critics responded that humans were inherently loving and altruistic. The resulting debate—fiercely contested and highly public—left a lasting impression on the popular science discourse surrounding what it means to be human.
Killer Instinct traces how Konrad Lorenz, Robert Ardrey, and their followers drew on the sciences of animal behavior and paleoanthropology to argue that the aggression instinct drove human evolutionary progress. Their message, spread throughout popular media, brought pointed ripostes. Led by the anthropologist Ashley Montagu, opponents presented a rival vision of human nature, equally based in biological evidence, that humans possessed inborn drives toward love and cooperation. Over the course of the debate, however, each side accused the other of holding an extremist position: that behavior was either determined entirely by genes or shaped solely by environment. Nadine Weidman shows that what started as a dispute over the innate tendencies of animals and humans transformed into an opposition between nature and nurture.
This polarized formulation proved powerful. When E. O. Wilson introduced his sociobiology in 1975, he tried to rise above the oppositional terms of the aggression debate. But the controversy over Wilson’s work—led by critics like the feminist biologist Ruth Hubbard—was ultimately absorbed back into the nature-versus-nurture formulation. Killer Instinct explores what happens and what gets lost when polemics dominate discussions of the science of human nature.
Since Darwin, people have speculated about the evolutionary relationships among dissimilar species, including our connections to the diverse life forms known as microbes. In the 1970s biologists discovered a way to establish these kinships. This new era of exploration began with Linus Pauling’s finding that every protein in every cell contains a huge reservoir of evolutionary history. His discovery opened a research path that has changed the way biologists and others think about the living world. In Kin John L. Ingraham tells the story of these remarkable breakthroughs. His original, accessible history explains how we came to understand our microbe inheritance and the relatedness of all organisms on Earth.
Among the most revolutionary scientific achievements was Carl Woese’s discovery that a large group of organisms previously lumped together with bacteria were in fact a totally distinct form of life, now called the archaea. But the crowning accomplishment has been to construct the Tree of Life—an evolutionary project Darwin dreamed about over a century ago. Today, we know that the Tree’s three main stems are dominated by microbes. The nonmicrobes—plants and animals, including humans—constitute only a small upper branch in one stem.
Knowing the Tree’s structure has given biologists the ability to characterize the complex array of microbial populations that live in us and on us, and investigate how they contribute to health and disease. This knowledge also moves us closer to answering the tantalizing question of how the Tree of Life began, over 3.5 billion years ago.
A discerning analysis of the future effects of climate change on Russia, the major power most dependent on the fossil fuel economy.
Russia will be one of the countries most affected by climate change. No major power is more economically dependent on the export of hydrocarbons; at the same time, two-thirds of Russia’s territory lies in the arctic north, where melting permafrost is already imposing growing damage. Climate change also brings drought and floods to Russia’s south, threatening the country’s agricultural exports.
Thane Gustafson predicts that, over the next thirty years, climate change will leave a dramatic imprint on Russia. The decline of fossil fuel use is already underway, and restrictions on hydrocarbons will only tighten, cutting fuel prices and slashing Russia’s export revenues. Yet Russia has no substitutes for oil and gas revenues. The country is unprepared for the worldwide transition to renewable energy, as Russian leaders continue to invest the national wealth in oil and gas while dismissing the promise of post-carbon technologies. Nor has the state made efforts to offset the direct damage that climate change will do inside the country. Optimists point to new opportunities—higher temperatures could increase agricultural yields, the melting of arctic ice may open year-round shipping lanes in the far north, and Russia could become a global nuclear-energy supplier. But the eventual post-Putin generation of Russian leaders will nonetheless face enormous handicaps, as their country finds itself weaker than at any time in the preceding century.
Lucid and thought-provoking, Klimat shows how climate change is poised to alter the global order, potentially toppling even great powers from their perches.
Political ecology and science studies have found fertile meeting ground in environmental studies. While the two distinct areas of inquiry approach the environment from different perspectives—one focusing on the politics of resource access and the other on the construction and perception of knowledge—their work is actually more closely aligned now than ever before.
Knowing Nature brings together political ecologists and science studies scholars to showcase the key points of encounter between the two fields and how this intellectual mingling creates a lively and more robust ecological framework for the study of environmental politics. The contributors all actively work at the interface between these two fields, and here they use empirical material to explore questions of theoretical and practical import for understanding the politics that surround nature-society relations, from wildlife management in the Yukon to soil fertility in Kenya. In addition, they examine how various environmental knowledge claims are generated, packaged, promoted, and accepted (or rejected) by the different actors involved in specific cases of environmental management, conservation, and development. Finally, they ask what is at stake in the struggles surrounding environmental knowledge, how such struggles shape conceptions of the environment, and whose interests are served in the process.
Countering critics who charge that postmodern positions on language, authority, and power cannot inform effective political responses, this compelling analysis employs these same methods to examine antinuclear politics. Star Wars (the movie and the antimissile system), the Freeze movement, Reaganism, and “lifestyle” politics all receive new treatments.
In the second millennium CE, long before English became the language of science, the act of translation was crucial for understanding and disseminating knowledge and information across linguistic and geographic boundaries. This volume considers the complexities of knowledge exchange through the practice of translation over the course of a millennium, across fields of knowledge—cartography, health and medicine, material construction, astronomy—and a wide geographical range, from Eurasia to Africa and the Americas. Contributors literate in Arabic, Catalan, Chinese, Greek, Hebrew, Italian, Japanese, Latin, Minnan, Ottoman, and Persian explore the history of science in the context of world and global history, investigating global patterns and implications in a multilingual and increasingly interconnected world. Chapters reveal cosmopolitan networks of shared practice and knowledge about the natural world from 1000 to 1800 CE, emphasizing both evolving scientific exchange and the emergence of innovative science. By unraveling the role of translation in cross-cultural communication, Knowledge in Translation highlights key moments of transmission, insight, and critical interpretation across linguistic and faith communities.
After the eruption, Krakatau provided a unique opportunity to study the colonization of a sterile area by plants and animals across a sea barrier and the gradual incorporation of the newcomers into the developing ecosystem. Krakatau is a comprehensive account of the reassembly of a tropical forest ecosystem over the past century. Ian Thornton tackles the many questions and controversies surrounding the eruption and its aftermath. He writes, “The natural healing process has followed the most extreme form of ecological destruction possible, total biological extirpation. Yet the islands surviving the 1883 eruption are covered in secondary forest, and over 200 species of plants, 70 species of vertebrates, and thousands of invertebrate species now inhabit these forests.”
Krakatau will be essential reading for anyone who wishes to understand not just the rebirth of Krakatau but also the resilient nature of life everywhere.
Kruger National Park in South Africa has one of the most extensive sets of records of any protected area in the world, and throughout its history has supported connections between science and management. In recognition of that long-standing tradition comes The Kruger Experience, the first book to synthesize/summarize a century of ecological research and management in two million hectares of African savanna.
The Kruger Experience places the scientific and management experience in Kruger within the framework of modern ecological theory and its practical applications. The book uses a cross-cutting theme of ecological heterogeneity -- the idea that ecological systems function across a full hierarchy of physical and biological components, processes, and scales, in a dynamic space-time mosaic. Contributors, who include many esteemed ecologists who have worked in Kruger in recent years, examine a range of topics covering broad taxonomic groupings and ecological processes. The book's four sections explore:
In addition to the editors, contributors include William J. Bond, Jane Lubchenco, David Mabunda, Michael G.L. ("Gus") Mills, Robert J. Naiman, Norman Owen-Smith, Steward T.A. Pickett, Stuart L. Pimm, and Rober J. Scholes.
The book is an invaluable new resource for scientists and managers involved with large, conserved ecosystems as well as for conservation practitioners and others with interests in adaptive management, the societal context of conservation, links between research and management in parks, and parks/academic partnerships.
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