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In the first half of the twentieth century, when seismology was still in in its infancy, renowned geologist Bailey Willis faced off with fellow high-profile scientist Robert T. Hill in a debate with life-or-death consequences for the millions of people migrating west. Their conflict centered on a consequential question: Is southern California earthquake country? These entwined biographies of Hill and Willis offer a lively, accessible account of the ways that politics and financial interests influenced the development of earthquake science. During this period of debate, severe quakes in Santa Barbara (1925) and Long Beach (1933) caused scores of deaths and a significant amount of damage, offering turning points for scientific knowledge and mainstreaming the idea of earthquake safety. The Great Quake Debate sheds light on enduring questions surrounding the environmental hazards of our dynamic planet. What challenges face scientists bearing bad news in the public arena? How do we balance risk and the need to sustain communities and cities? And how well has California come to grips with its many faults?
In the first half of the twentieth century, when seismology was still in in its infancy, renowned geologist Bailey Willis faced off with fellow high-profile scientist Robert T. Hill in a debate with life-or-death consequences for the millions of people migrating west. Their conflict centered on a consequential question: Is southern California earthquake country? These entwined biographies of Hill and Willis offer a lively, accessible account of the ways that politics and financial interests influenced the development of earthquake science. During this period of debate, severe quakes in Santa Barbara (1925) and Long Beach (1933) caused scores of deaths and a significant amount of damage, offering turning points for scientific knowledge and mainstreaming the idea of earthquake safety. The Great Quake Debate sheds light on enduring questions surrounding the environmental hazards of our dynamic planet. What challenges face scientists bearing bad news in the public arena? How do we balance risk and the need to sustain communities and cities? And how well has California come to grips with its many faults?
On March 27, 1964, at 5-36 p.m., the biggest earthquake ever recorded in North America--and the second biggest ever in the world, measuring 9.2 on the Richter scale--struck Alaska, devastating coastal towns and villages and killing more than 130 people in what was then a relatively sparsely populated region. In a riveting tale about the almost unimaginable brute force of nature, New York Times science journalist Henry Fountain, in his first trade book, re-creates the lives of the villagers and townspeople living in Chenega, Anchorage, and Valdez; describes the sheer beauty of the geology of the region, with its towering peaks and 20-mile-long glaciers; and reveals the impact of the quake on the towns, the buildings, and the lives of the inhabitants. George Plafker, a geologist for the U.S. Geological Survey with years of experience scouring the Alaskan wilderness, is asked to investigate the Prince William Sound region in the aftermath of the quake, to better understand its origins. His work confirmed the then controversial theory of plate tectonics that explained how and why such deadly quakes occur, and how we can plan for the next one.
Why seismologists still can't predict earthquakes An earthquake can strike without warning and wreak horrific destruction and death, whether it's the catastrophic 2010 quake that took a devastating toll on the island nation of Haiti or a future great earthquake on the San Andreas Fault in California, which scientists know is inevitable. Yet despite rapid advances in earthquake science, seismologists still can’t predict when the Big One will hit. Predicting the Unpredictable explains why, exploring the fact and fiction behind the science—and pseudoscience—of earthquake prediction. Susan Hough traces the continuing quest by seismologists to forecast the time, location, and magnitude of future quakes. She brings readers into the laboratory and out into the field—describing attempts that have raised hopes only to collapse under scrutiny, as well as approaches that seem to hold future promise. She also ventures to the fringes of pseudoscience to consider ideas outside the scientific mainstream. An entertaining and accessible foray into the world of earthquake prediction, Predicting the Unpredictable illuminates the unique challenges of predicting earthquakes.
Winner of the Phi Alpha Theta Best Subsequent Book Award A Los Angeles Times Book Prize Finalist The captivating and definitive account of the Great Lisbon Earthquake--the most consequential natural disaster of modern times. On All Saints’ Day 1755, tremors from an earthquake measuring approximately 9.0 or perhaps higher on the magnitude scale swept furiously toward Lisbon, then one of the wealthiest cities in the world and the capital of a vast global empire. Within minutes, much of the city lay in ruins. A half hour later, a giant tsunami unleashed by the quake smashed into Portugal’s coastline and barreled up the Tagus River, carrying countless thousands out to sea. To complete Lisbon’s destruction, a hellacious firestorm then engulfed the city’s shattered remains, killing thousands more and incinerating much of what the earthquake and tsunami had spared. Drawing on a wealth of new sources, the latest scientific research, and a sophisticated grasp of European history, Mark Molesky gives us the gripping, authoritative account of the Great Lisbon Earthquake disaster and its impact on the Western world—including descriptions of the world’s first international relief effort, the rise of a brutal, yet modernizing, dictatorship in Portugal, and the effect of the catastrophe on the spirit and direction of the European Enlightenment.
From December 1811 to February 1812, massive earthquakes shook the middle Mississippi Valley, collapsing homes, snapping large trees midtrunk, and briefly but dramatically reversing the flow of the continent’s mightiest river. For decades, people puzzled over the causes of the quakes, but by the time the nation began to recover from the Civil War, the New Madrid earthquakes had been essentially forgotten. In The Lost History of the New Madrid Earthquakes, Conevery Bolton Valencius remembers this major environmental disaster, demonstrating how events that have been long forgotten, even denied and ridiculed as tall tales, were in fact enormously important at the time of their occurrence, and continue to affect us today. Valencius weaves together scientific and historical evidence to demonstrate the vast role the New Madrid earthquakes played in the United States in the early nineteenth century, shaping the settlement patterns of early western Cherokees and other Indians, heightening the credibility of Tecumseh and Tenskwatawa for their Indian League in the War of 1812, giving force to frontier religious revival, and spreading scientific inquiry. Moving into the present, Valencius explores the intertwined reasons—environmental, scientific, social, and economic—why something as consequential as major earthquakes can be lost from public knowledge, offering a cautionary tale in a world struggling to respond to global climate change amid widespread willful denial. Engagingly written and ambitiously researched—both in the scientific literature and the writings of the time—The Lost History of the New Madrid Earthquakes will be an important resource in environmental history, geology, and seismology, as well as history of science and medicine and early American and Native American history.
A puzzling tsunami entered Japanese history in January 1700. Samurai, merchants, and villagers wrote of minor flooding and damage. Some noted having felt no earthquake; they wondered what had set off the waves but had no way of knowing that the tsunami was spawned during an earthquake along the coast of northwestern North America. This orphan tsunami would not be linked to its parent earthquake until the mid-twentieth century, through an extraordinary series of discoveries in both North America and Japan. The Orphan Tsunami of 1700, now in its second edition, tells this scientific detective story through its North American and Japanese clues. The story underpins many of today�s precautions against earthquake and tsunami hazards in the Cascadia region of northwestern North America. The Japanese tsunami of March 2011 called attention to these hazards as a mirror image of the transpacific waves of January 1700. Hear Brian Atwater on NPR with Renee Montagne http://www.npr.org/templates/story/story.php?storyId=4629401
This anthology focuses on the ethical issues surrounding information control in the broadest sense. Anglo-American institutions of intellectual property protect and restrict access to vast amounts of information. Ideas and expressions captured in music, movies, paintings, processes of manufacture, human genetic information, and the like are protected domestically and globally. The ethical issues and tensions surrounding free speech and information control intersect in at least two important respects. First, the commons of thought and expression is threatened by institutions of copyright, patent, and trade secret. While institutions of intellectual property may be necessary for innovation and social progress they may also be detrimental when used by the privileged and economically advantaged to control information access, consumption, and expression. Second, free speech concerns have been allowed to trump privacy interests in all but the most egregious of cases. At the same time, our ability to control access to information about ourselves--what some call "informational privacy"--is rapidly diminishing. Data mining and digital profiling are opening up what most would consider private domains for public consumption and manipulation. Post-9/11, issues of national security have run headlong into individual rights to privacy and free speech concerns. While constitutional guarantees against unwarranted searches and seizures have been relaxed, access to vast amounts of information held by government agencies, libraries, and other information storehouses has been restricted in the name of national security.
This is the first book to really make sense of the dizzying array of information that has emerged in recent decades about earthquakes. Susan Hough, a research seismologist in one of North America's most active earthquake zones and an expert at communicating this complex science to the public, separates fact from fiction. She fills in many of the blanks that remained after plate tectonics theory, in the 1960s, first gave us a rough idea of just what earthquakes are about. How do earthquakes start? How do they stop? Do earthquakes occur at regular intervals on faults? If not, why not? Are earthquakes predictable? How hard will the ground shake following an earthquake of a given magnitude? How does one quantify future seismic hazard? As Hough recounts in brisk, jargon-free prose, improvements in earthquake recording capability in the 1960s and 1970s set the stage for a period of rapid development in earthquake science. Although some formidable enigmas have remained, much has been learned on critical issues such as earthquake prediction, seismic hazard assessment, and ground motion prediction. This book addresses those issues. Because earthquake science is so new, it has rarely been presented outside of technical journals that are all but opaque to nonspecialists. Earthshaking Science changes all this. It tackles the issues at the forefront of modern seismology in a way most readers can understand. In it, an expert conveys not only the facts, but the passion and excitement associated with research at the frontiers of this fascinating field. Hough proves, beyond a doubt, that this passion and excitement is more accessible than one might think.
Contemporary natural disasters such as Hurricane Katrina are quickly followed by disagreements about whether and how communities should be rebuilt, whether political leaders represent the community’s best interests, and whether the devastation could have been prevented. Shaky Colonialism demonstrates that many of the same issues animated the aftermath of disasters more than 250 years ago. On October 28, 1746, a massive earthquake ravaged Lima, a bustling city of 50,000, capital of the Peruvian Viceroyalty, and the heart of Spain’s territories in South America. Half an hour later, a tsunami destroyed the nearby port of Callao. The earthquake-tsunami demolished churches and major buildings, damaged food and water supplies, and suspended normal social codes, throwing people of different social classes together and prompting widespread chaos. In Shaky Colonialism, Charles F. Walker examines reactions to the catastrophe, the Viceroy’s plans to rebuild the city, and the opposition he encountered from the Church, the Spanish Crown, and Lima’s multiracial population. Through his ambitious rebuilding plan, the Viceroy sought to assert the power of the colonial state over the Church, the upper classes, and other groups. Agreeing with most inhabitants of the fervently Catholic city that the earthquake-tsunami was a manifestation of God’s wrath for Lima’s decadent ways, he hoped to reign in the city’s baroque excesses and to tame the city’s notoriously independent women. To his great surprise, almost everyone objected to his plan, sparking widespread debate about political power and urbanism. Illuminating the shaky foundations of Spanish control in Lima, Walker describes the latent conflicts—about class, race, gender, religion, and the very definition of an ordered society—brought to the fore by the earthquake-tsunami of 1746.