In spite of decades of research on toxicants, along with the growing role of scientific expertise in public policy and the unprecedented rise in the number of national and international institutions dealing with environmental health issues, problems surrounding contaminants and their effects on health have never appeared so important, sometimes to the point of appearing insurmountable. This calls for a reconsideration of the roles of scientific knowledge and expertise in the definition and management of toxic issues, which this book seeks to do. It looks at complex historical, social, and political dynamics, made up of public controversies, environmental and health crises, economic interests, and political responses, and demonstrates how and to what extent scientific knowledge about toxicants has been caught between scientific, economic, and political imperatives.
In spite of decades of research on toxicants, along with the growing role of scientific expertise in public policy and the unprecedented rise in the number of national and international institutions dealing with environmental health issues, problems surrounding contaminants and their effects on health have never appeared so important, sometimes to the point of appearing insurmountable. This calls for a reconsideration of the roles of scientific knowledge and expertise in the definition and management of toxic issues, which this book seeks to do. It looks at complex historical, social, and political dynamics, made up of public controversies, environmental and health crises, economic interests, and political responses, and demonstrates how and to what extent scientific knowledge about toxicants has been caught between scientific, economic, and political imperatives. Soraya Boudia is Professor of Science, Technology, and Innovation Studies at the University of Paris-Est Marne-la-Vallée. Her scholarly work focuses on the transnational government of technological and health environmental risks. She has co-edited a special issue of History and Technology, "Risk and risk Society in Historical Perspective" (2007), and Toxicants, Health and Regulations Since 1945 (Pickering & Chatto, 2013), both with Nathalie Jas. Nathalie Jas is a Senior Researcher at the French National Institute for Agricultural Research (INRA). A historian and a STS scholar, her scholarly work analyses the intensification of agriculture and its social, environmental, and health effects. She has co-edited a special issue of History and Technology, "Risk and risk Society in Historical Perspective" (2007), and Toxicants, Health and Regulations Since 1945 (Pickering & Chatto, 2013), both with Soraya Boudia.
A compelling exploration of the mysteries of environmental toxicity and the community of “sensitives”—people with powerful, puzzling symptoms resulting from exposure to chemicals, fragrances, and cell phone signals, that have no effect on “normals.” They call themselves “sensitives.” Over fifty million Americans endure a mysterious environmental illness that renders them allergic to chemicals. Innocuous staples from deodorant to garbage bags wreak havoc on sensitives. For them, the enemy is modernity itself. No one is born with EI. It often starts with a single toxic exposure. Then the symptoms hit: extreme fatigue, brain fog, muscle aches, inability to tolerate certain foods. With over 85,000 chemicals in the environment, danger lurks around every corner. Largely ignored by the medical establishment and dismissed by family and friends, sensitives often resort to odd ersatz remedies, like lining their walls with aluminum foil or hanging mail on a clothesline for days so it can “off-gas” before they open it. Broudy encounters Brian Welsh, a prominent figure in the EI community, and quickly becomes fascinated by his plight. When Brian goes missing, Broudy travels with James, an eager, trusting sensitive to find Brian, investigate this disease, and delve into the intricate, ardent subculture that surrounds it. Their destination: Snowflake, the capital of the EI world. Located in eastern Arizona, it is a haven where sensitives can live openly without fear of toxins or the judgment of insensitive “normals.” While Broudy’s book is wry, pacey, and down-to-earth, it also dives deeply into compelling corners of medical and American history. He finds telling parallels between sensitives and their cultural forebears, from the Puritans to those refugees and dreamers who settled the West. Ousted from mainstream society, these latter-day exiles nonetheless shed bright light on the anxious, noxious world we all inhabit now.
The distinction between basic and applied research was central to twentieth-century science and policymaking, and if this framework has been contested in recent years, it nonetheless remains ubiquitous in both scientific and public discourse. Employing a transnational, diachronic perspective informed by historical semantics, this volume traces the conceptual history of the basic–applied distinction from the nineteenth century to today, taking stock of European developments alongside comparative case studies from the United States and China. It shows how an older dichotomy of pure and applied science was reconceived in response to rapid scientific progress and then further transformed by the geopolitical circumstances of the postwar era.
Not a day goes by that humans aren’t exposed to toxins in our environment—be it at home, in the car, or workplace. But what about those toxic places and items that aren’t marked? Why are we warned about some toxic spaces' substances and not others? The essays in Inevitably Toxic consider the exposure of bodies in the United States, Canada and Japan to radiation, industrial waste, and pesticides. Research shows that appeals to uncertainty have led to social inaction even when evidence, e.g. the link between carbon emissions and global warming, stares us in the face. In some cases, influential scientists, engineers and doctors have deliberately "manufactured doubt" and uncertainty but as the essays in this collection show, there is often no deliberate deception. We tend to think that if we can’t see contamination and experts deem it safe, then we are okay. Yet, having knowledge about the uncertainty behind expert claims can awaken us from a false sense of security and alert us to decisions and practices that may in fact cause harm. In the epilogue, Hamilton and Sarathy interview Peter Galison, a prominent historian of science whose recent work explores the complex challenge of long term nuclear waste storage.
Explains to outsiders the conflicts between the financial interests of the coal and land companies and the moral rights of the vulnerable mountaineers.
Why the social character of scientific knowledge makes it trustworthy Are doctors right when they tell us vaccines are safe? Should we take climate experts at their word when they warn us about the perils of global warming? Why should we trust science when so many of our political leaders don't? Naomi Oreskes offers a bold and compelling defense of science, revealing why the social character of scientific knowledge is its greatest strength—and the greatest reason we can trust it. Tracing the history and philosophy of science from the late nineteenth century to today, this timely and provocative book features a new preface by Oreskes and critical responses by climate experts Ottmar Edenhofer and Martin Kowarsch, political scientist Jon Krosnick, philosopher of science Marc Lange, and science historian Susan Lindee, as well as a foreword by political theorist Stephen Macedo.
The beauty of science may be pure and eternal, but the practice of science costs money. And scientists, being human, respond to incentives and costs, in money and glory. Choosing a research topic, deciding what papers to write and where to publish them, sticking with a familiar area or going into something new—the payoff may be tenure or a job at a highly ranked university or a prestigious award or a bump in salary. The risk may be not getting any of that. At a time when science is seen as an engine of economic growth, Paula Stephan brings a keen understanding of the ongoing cost-benefit calculations made by individuals and institutions as they compete for resources and reputation. She shows how universities offload risks by increasing the percentage of non-tenure-track faculty, requiring tenured faculty to pay salaries from outside grants, and staffing labs with foreign workers on temporary visas. With funding tight, investigators pursue safe projects rather than less fundable ones with uncertain but potentially path-breaking outcomes. Career prospects in science are increasingly dismal for the young because of ever-lengthening apprenticeships, scarcity of permanent academic positions, and the difficulty of getting funded. Vivid, thorough, and bold, How Economics Shapes Science highlights the growing gap between the haves and have-nots—especially the vast imbalance between the biomedical sciences and physics/engineering—and offers a persuasive vision of a more productive, more creative research system that would lead and benefit the world.