Challenge of Global Warming examines the causes and effects of global climate change.
The Rising Tide is the first analysis of global warming and world sea level rise. It outlines state, national, and international actions to respond to the effects of global warming on coastal communities and ecosystems.
When The Impact of Global Warming on Texas was first published in 1995, it discussed climate change as a likely future phenomenon, predicted by scientific studies. This entirely rewritten second edition presents evidence that early climate change impacts can now be observed and identifies the threats climate change will pose to Texas through the year 2050. It also offers the hopeful message that corrective action, if taken now, can avert unmanageable consequences.
The book begins with a discussion of climate science and modeling and the information that can be derived from these sources for Texas. The authors follow this with an analysis of actual climate trends in the various Texas climate regions, including a predicted rise in temperatures of 5.4 degrees F (plus or minus 1.8 F) by the end of the century. This could lead to less rainfall and higher evaporation, especially in regions that are already dry. Other important effects include possible changes in El Niño (climate variability) patterns and hurricane behaviors. Taking into account projected population growth, subsequent chapters explore likely trends with respect to water availability, coastal impacts, and biodiversity.
The authors then look at the issues from a policy perspective, focusing on Texas's importance to the national economy as an energy producer, particularly of oil and gas. They recommend that Texas develop its own climate change policy to serve the goals of reducing greenhouse gas emissions, increasing energy independence, ensuring regional security, and improving management of water, air, land, and wildlife.
Musil draws on personal experience and compelling data in this practical and rigorous analysis of the causes and cures for global warming. The book presents all the players in the most pressing challenge facing society today, from the massive fossil fuel lobby to the enlightened corporations that are joining the movement to "go green." Musil thoroughly explains the tremendous potential of renewable energy sources-wind, solar, and biofuel-and the startling conclusions of experts who say society can do away entirely with fossil fuels. He tells readers about the engaged politicians, activists, religious groups, and students who are already working together against climate change.
But the future depends, Musil insists, on what changes ordinary citizens make. Through personal choices and political engagement, he shows how readers can cut carbon emissions and create green communities where they live. With practical and realistic solutions, Hope for a Heated Planet inspires readers to be accountable and enables them to usher in an age of sustainability for future generations.
THIS EDITION HAS BEEN REPLACED BY A NEWER EDITION..
In 2001 a panel representing virtually all the world's governments and climate scientists announced that they had reached a consensus: the world was warming at a rate without precedent during at least the last ten millennia, and that warming was caused by the buildup of greenhouse gases from human activity. The consensus itself was at least a century in the making. The story of how scientists reached their conclusion--by way of unexpected twists and turns and in the face of formidable intellectual, financial, and political obstacles--is told for the first time in The Discovery of Global Warming. Spencer R. Weart lucidly explains the emerging science, introduces us to the major players, and shows us how the Earth's irreducibly complicated climate system was mirrored by the global scientific community that studied it.
Unlike familiar tales of Science Triumphant, this book portrays scientists working on bits and pieces of a topic so complex that they could never achieve full certainty--yet so important to human survival that provisional answers were essential. Weart unsparingly depicts the conflicts and mistakes, and how they sometimes led to fruitful results. His book reminds us that scientists do not work in isolation, but interact in crucial ways with the political system and with the general public. The book not only reveals the history of global warming, but also analyzes the nature of modern scientific work as it confronts the most difficult questions about the Earth's future.
The award-winning book is now revised and expanded.
In 2001 an international panel of distinguished climate scientists announced that the world was warming at a rate without precedent during at least the last ten millennia, and that warming was caused by the buildup of greenhouse gases from human activity. The story of how scientists reached that conclusion—by way of unexpected twists and turns—was the story Spencer Weart told in The Discovery of Global Warming. Now he brings his award-winning account up to date, revised throughout to reflect the latest science and with a new conclusion that shows how the scientific consensus caught fire among the general world public, and how a new understanding of the human meaning of climate change spurred individuals and governments to action.
Wildlife Responses to Climate Change is the culmination of a three-year project to research and study the impacts of global climate change on ecosystems and individual wildlife species in North America. In 1997, the National Wildlife Federation provided fellowships to eight outstanding graduate students to conduct research on global climate change, and engaged leading climate change experts Stephen H. Schneider and Terry L. Root to advise and guide the project. This book presents the results, with chapters describing groundbreaking original research by some of the brightest young scientists in America. The book presents case studies that examine:
Each of the eight case studies provides important information about how biotic systems respond to climatic variables, and how a changing climate may affect biotic systems in the future. They also acknowledge the inherent complexities of problems likely to arise from changes in climate, and demonstrate the types of scientific questions that need to be explored in order to improve our understanding of how climate change and other human disturbances affect wildlife and ecosystems.
Wildlife Responses to Climate Change is an important addition to the body of knowledge critical to scientists, resource managers, and policymakers in understanding and shaping solutions to problems caused by climate change. It provides a useful resource for students and scientists studying the effects of climate change on wildlife and will assist resource managers and other wildlife professionals to better understand factors affecting the species they are striving to conserve.
The weather has always been a favorite topic of conversation. Undoubtedly, someone must have said to Noah, “I thought they said it was supposed to let up on Tuesday.” Over a century ago, American essayist Charles Dudley Warner wrote in the HartfordCourant, “Everybody talks about the weather but nobody does anything about it.” And now with the advent of the 24-hour Weather Channel and high-tech radar and satellite imagery, we have more information about the weather at our disposal than ever before. But what about weather in the past? Is the climate changing? Are the summers hotter now than ever before? Were winters colder when our grandparents were children?
In The Pennsylvania Weather Book, meteorologist Ben Gelber provides the first comprehensive survey of 250 years of recorded weather in this state. He reports on noteworthy weather happenings by category (snowstorms, rainstorms, cold and heat waves, thunderstorms, and tropical storms) and places them in historical context. Throughout the book, Gelber clearly defines meteorological terms and explains what creates weather events. The book features appendices and tables containing useful references for average temperatures, precipitation, snowfall, and climate data. It also provides a brief history of the weather watchers who contributed to the state’s meteorological records since the late eighteenth century. This volume will serve as a valuable resource for weather professionals, amateurs, and local enthusiasts alike.
Only in Texas could a snowstorm pelt the Panhandle at the very moment abrasive dust is scouring the Permian Basin while searing heat is wilting the Winter Garden region in the south. The state’s large size and central location within North America subject it to a great variety of weather occurrences. Texas state meteorologist George W. Bomar has been observing Texas weather for nearly half a century, and in Weather in Texas, he provides the essential guide to all of the state’s weather phenomena.
Writing in lively layman’s language, Bomar fully explains both how the weather works and how Texans can prepare for and stay safe during extreme weather events. He describes the forces that shape Texas weather from season to season, including the influence of tropical cyclones, frontal boundaries, El Niño, and the polar jet stream. Bomar puts specific weather events in historical context, using a ranking system to illustrate how recent droughts, snowstorms, hurricanes, flash floods, and tornadoes compare with those of previous generations. He also includes comprehensive tabulations of weather data for every area of Texas, quantifying what constitutes “normal” weather, as well as the extreme limits of variables such as low and high temperatures, rain days, snow accumulations, and earliest and latest freezes. With everything from the latest science on climate change and weather modification to dramatic stories about landmark weather events, Weather in Texas is a must-have reference for all Texans..
Enlightenment inquiries into the weather sought to impose order on a force that had the power to alter human life and social conditions. British Weather and the Climate of Enlightenment reveals how a new sense of the national climate emerged in the eighteenth century from the systematic recording of the weather, and how it was deployed in discussions of the health and welfare of the population. Enlightened intellectuals hailed climate’s role in the development of civilization but acknowledged that human existence depended on natural forces that would never submit to rational control.
Reading the Enlightenment through the ideas, beliefs, and practices concerning the weather, Jan Golinski aims to reshape our understanding of the movement and its legacy for modern environmental thinking. With its combination of cultural history and the history of science, British Weather and the Climate of Enlightenment counters the claim that Enlightenment progress set humans against nature, instead revealing that intellectuals of the age drew characteristically modern conclusions about the inextricability of nature and culture.
From the earliest use of fire to forge iron tools to the medieval alchemists’ search for the philosopher’s stone, the secrets of the elements have been pursued by human civilization. But, as the authors of this concise history remind us, “disciplines like physics and chemistry have not existed since the beginning of time; they have been built up little by little, and that does not happen without difficulties.” Bernadette Bensaude-Vincent and Isabelle Stengers present chemistry as a science in search of an identity, or rather as a science whose identity has changed in response to its relation to society and to other disciplines. The authors—respected, prolific scholars in history and philosophy of science—have distilled their knowledge into an accessible work, free of jargon. They have written a book deeply enthusiastic about the conceptual, experimental, and technological complexities and challenges with which chemists have grappled over many centuries.
Beginning with chemistry’s polymorphous beginnings, featuring many independent discoveries all over the globe, the narrative then moves to a discussion of chemistry’s niche in the eighteenth-century notion of Natural Philosophy and on to its nineteenth-century days as an exemplar of science as a means of reaching positive knowledge. The authors also address contentious issues of concern to contemporary scientists: whether chemistry has become a service science; whether its status has “declined” because its value lies in assisting the leading-edge research activities of molecular geneticists and materials scientists; or whether it is redefining its agenda.
A History of Chemistry treats chemistry as a study whose subject matter, the nature and behavior of qualitatively different materials, remains constant, while the methods and disciplinary boundaries of the science constantly shift.
Alchemy can't be science--common sense tells us as much. But perhaps common sense is not the best measure of what science is, or was. In this book, Bruce Moran looks past contemporary assumptions and prejudices to determine what alchemists were actually doing in the context of early modern science. Examining the ways alchemy and chemistry were studied and practiced between 1400 and 1700, he shows how these approaches influenced their respective practitioners' ideas about nature and shaped their inquiries into the workings of the natural world. His work sets up a dialogue between what historians have usually presented as separate spheres; here we see how alchemists and early chemists exchanged ideas and methods and in fact shared a territory between their two disciplines.
Distilling Knowledge suggests that scientific revolution may wear a different appearance in different cultural contexts. The metaphor of the Scientific Revolution, Moran argues, can be expanded to make sense of alchemy and other so-called pseudo-sciences--by including a new framework in which "process can count as an object, in which making leads to learning, and in which the messiness of conflict leads to discernment." Seen on its own terms, alchemy can stand within the bounds of demonstrative science.
Reputed to have performed miraculous feats in New England—restoring the hair and teeth to an aged lady, bringing a withered peach tree to fruit—Eirenaeus Philalethes was also rumored to be an adept possessor of the alchemical philosophers’ stone. That the man was merely a mythical creation didn’t diminish his reputation a whit—his writings were spectacularly successful, read by Leibniz, esteemed by Newton and Boyle, voraciously consumed by countless readers. Gehennical Fire is the story of the man behind the myth, George Starkey.
Though virtually unknown today and little noted in history, Starkey was America’s most widely read and celebrated scientist before Benjamin Franklin. Born in Bermuda, he received his A.B. from Harvard in 1646 and four years later emigrated to London, where he quickly gained prominence as a “chymist.” Thanks in large part to the scholarly detective work of William Newman, we now know that this is only a small part of an extraordinary story, that in fact George Starkey led two lives. Not content simply to publish his alchemical works under the name Eirenaeus Philalethes, “A Peaceful Lover of Truth,” Starkey spread elaborate tales about his alter ego, in effect giving him a life of his own.
The demonstrations capture interest, teach, inform, fascinate, amaze, and perhaps, most importantly, involve students in chemistry. Nowhere else will you find books that answer, "How come it happens? . . . Is it safe? . . . What do I do with all the stuff when the demo is over?"
Shakhashiri and his collaborators offer 282 chemical demonstrations arranged in 11 chapters. Each demonstration includes seven sections: a brief summary, a materials list, a step-by-step account of procedures to be used, an explanation of the hazards involved, information on how to store or dispose of the chemicals used, a discussion of the phenomena displayed and principles illustrated by the demonstration, and a list of references.
Color and light are the focus of this long-awaited fifth volume in the Chemical Demonstrations series, which describes demonstrations that effectively communicate science to both students and general audiences. Using full color illustrations, the book provides meticulous instructions for safely demonstrating colorful phenomena and illustrating scientific principles. A rich introductory section explores the science of color and light, outlines the chemical processes of vision, and explains what happens when visual information enters the human eye and is perceived by the brain. With more than fifty demonstrations and multiple procedures included, this volume offers abundant opportunities to arouse and sustain interest in science for both classroom and public presentations.
Each demonstration includes:
• a brief description of the demonstration
• a materials list
• a step-by-step account of procedures to be used
• an explanation of the potential hazards involved
• information on safely storing and disposing the chemicals used
• a full discussion of the phenomena displayed and principles illustrated
• a list of references.
Created by acclaimed chemists and science educators Bassam Shakhashiri and his collaborators Rodney Schreiner and Jerry Bell, these demonstrations make an impressive addition to the earlier volumes, which have been lauded for guiding teachers and scientists in effectively communicating science. Like all volumes in the series, Volume 5 communicates chemistry using pedagogical knowledge to enhance the effectiveness of demonstrations to all audiences.
Seduced by simplicity, physicists find themselves endlessly fascinated by hydrogen, the simplest of atoms. Hydrogen has shocked, it has surprised, it has embarrassed, it has humbled--and again and again it has guided physicists to the edge of new vistas where the promise of basic understanding and momentous insights beckoned. The allure of hydrogen, crucial to life and critical to scientific discovery, is at the center of this book, which tells a story that begins with the big bang and continues to unfold today.
In this biography of hydrogen, John Rigden shows how this singular atom, the most abundant in the universe, has helped unify our understanding of the material world from the smallest scale, the elementary particles, to the largest, the universe itself. It is a tale of startling discoveries and dazzling practical benefits spanning more than one hundred years--from the first attempt to identify the basic building block of atoms in the mid-nineteenth century to the discovery of the Bose-Einstein condensate only a few years ago. With Rigden as an expert and engaging guide, we see how hydrogen captured the imagination of many great scientists--such as Heisenberg, Pauli, Schrödinger, Dirac, and Rabi--and how their theories and experiments with this simple atom led to such complex technical innovations as magnetic resonance imaging, the maser clock, and global positioning systems. Along the way, we witness the transformation of science from an endeavor of inspired individuals to a monumental enterprise often requiring the cooperation of hundreds of scientists around the world.
Still, any biography of hydrogen has to end with a question: What new surprises await us?
Nineteenth-century chemists were faced with a particular problem: how to depict the atoms and molecules that are beyond the direct reach of our bodily senses. In visualizing this microworld, these scientists were the first to move beyond high-level philosophical speculations regarding the unseen. In Image and Reality, Alan Rocke focuses on the community of organic chemists in Germany to provide the basis for a fuller understanding of the nature of scientific creativity.
Arguing that visual mental images regularly assisted many of these scientists in thinking through old problems and new possibilities, Rocke uses a variety of sources, including private correspondence, diagrams and illustrations, scientific papers, and public statements, to investigate their ability to not only imagine the invisibly tiny atoms and molecules upon which they operated daily, but to build detailed and empirically based pictures of how all of the atoms in complicated molecules were interconnected. These portrayals of “chemical structures,” both as mental images and as paper tools, gradually became an accepted part of science during these years and are now regarded as one of the central defining features of chemistry. In telling this fascinating story in a manner accessible to the lay reader, Rocke also suggests that imagistic thinking is often at the heart of creative thinking in all fields.
Image and Reality is the first book in the Synthesis series, a series in the history of chemistry, broadly construed, edited by Angela N. H. Creager, John E. Lesch, Stuart W. Leslie, Lawrence M. Principe, Alan Rocke, E.C. Spary, and Audra J. Wolfe, in partnership with the Chemical Heritage Foundation.
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