· 2009
It’s been nearly four decades since scientists first realized that global warming posed a potential threat to our planet. Why, if we knew of the threats way back in the Carter Administration, can’t we act decisively to limit greenhouse gases, deforestation, and catastrophic warming trends? Why are we still addicted to fossil fuels? Have we all just been fiddling for 40 years as the world burns around us? Schneider, part of the Nobel Prize–winning team that shared the accolade with Al Gore in 2007, had a front-row seat at this unfolding environmental meltdown. Piecing together events like a detective story, Schneider reveals that as expert consensus grew, well-informed activists warned of dangerous changes no one knew how to predict precisely—and special interests seized on that very uncertainty to block any effective response. He persuasively outlines a plan to avert the building threat and develop a positive, practical policy that will bring climate change back under our control, help the economy with a new generation of green energy jobs and productivity, and reduce the dependence on unreliable exporters of oil—and thus ensure a future for ourselves and our planet that’s as rich with promise as our past.
Why we should prepare for climate change now by taking anticipatory action in vulnerable regions. Global momentum is building to reduce greenhouse gas emissions. So far, so good. The less happy news is that Earth's temperatures will continue to rise for decades. And evidence shows that climbing temperatures are already having serious consequences for vulnerable people and regions through droughts, extreme weather, and melting glaciers. In this book, climate experts Michael Mastrandrea and Stephen Schneider argue that we need to start adapting to climate change, now. They write that these efforts should focus primarily on identifying the places and people most at risk and taking anticipatory action—from developing drought-resistant crops to building sea walls. The authors roundly reject the idea that reactive, unplanned adaptation will solve our problems—that species will migrate northward as climates warm, and farmers will shift to new crops and more hospitable locations. And they are highly critical of “geoengineering” schemes that are designed to cool the planet by such methods as injecting iron into oceans or exploding volcanoes. Mastrandrea and Schneider insist that smart adaptation will require a series of local and regional projects, many of them in the countries least able to pay for them and least responsible for the problem itself. Ensuring that we address the needs of these countries, while we work globally to reduce emissions over the long term, is our best chance to avert global disaster and to reduce the terrible, unfair burdens that are likely to accompany global warming.
· 2011
This three-volume A-to-Z compendium consists of over 300 entries written by a team of leading international scholars and researchers working in the field. Authoritative and up-to-date, the encyclopedia covers the processes that produce our weather, important scientific concepts, the history of ideas underlying the atmospheric sciences, biographical accounts of those who have made significant contributions to climatology and meteorology and particular weather events, from extreme tropical cyclones and tornadoes to local winds.
Threatened with a rare and life-threatening cancer, a scientist works with his doctors to make decisions in the face of uncertainty
· 2012
Does the solution to our energy crisis depend upon the de velopment of coal, nuclear, solar, or some other energy source? Are we better off because science and technology have made us less vulnerable to natural catastrophes? How, in fact, do we see ourselves now in relation to our natural world? The answers to these questions lie as much within the humanities as in the sciences. Problems as seemingly unrelated as our vulnerability to OPEC oil price hikes or a smog alert in Los Angeles or Tokyo often have common, hidden causes. One of these causes is simply the way our society sees its place in nature. There are many reasons for the heavy demand for oil. Among these we vii viii I PREFACE can include desire for industrial growth, hopes for improved living standards, mobility through automobiles and rapid transportation systems, and, not least, an attempt to loosen the constraints on man imposed by nature. These constraints and man's concomitant dependence upon nature are exam ples of the intense and finely interwoven relationship be tween man and nature, a relationship that constitutes a pri mordial bond forged long before the era of modem technology. Similarly, man has explored this primordial bond through the humanities for all the centuries prior to our present techno logical age. As we will see in this exploration, the bond un derlies many of the environmental and technological prob lems we have come to label the ecological crisis.
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· 2013
An extremely readable account on the scientific essentials of the global warming debate The possibility of global climatic change as a result of increasing numbers of people requiring higher stands of living has spawned an international controversy over the appropriateness of controls on deforestation and energy use. In order to address the political debate it is essential to understand the scientific background that underlies this problem. Laboratory Earth takes the reader on a journey from the dawn of earth's climate and biological evolution through the era of the dinosaurs, past the Ice Age and into the shadowy environmental future increasingly dominated by human activities. In the final analysis it will be human values more than scientific methods that must be applied to decide how to gamble with the fate of the earth.
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