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The “compelling” story behind the 1995 Chicago weather disaster that killed hundreds—and what it revealed about our broken society (Boston Globe). On July 13, 1995, Chicagoans awoke to a blistering day in which the temperature would reach 106 degrees. The heat index—how the temperature actually feels on the body—would hit 126. When the heat wave broke a week later, city streets had buckled; records for electrical use were shattered; and power grids had failed, leaving residents without electricity for up to two days. By July 20, over seven hundred people had perished—twenty times the number of those struck down by Hurricane Andrew in 1992. Heat waves kill more Americans than all other natural disasters combined. Until now, no one could explain either the overwhelming number or the heartbreaking manner of the deaths resulting from the 1995 Chicago heat wave. Meteorologists and medical scientists have been unable to account for the scale of the trauma, and political officials have puzzled over the sources of the city’s vulnerability. In Heat Wave, Eric Klinenberg takes us inside the anatomy of the metropolis to conduct what he calls a “social autopsy,” examining the social, political, and institutional organs of the city that made this urban disaster so much worse than it ought to have been. He investigates why some neighborhoods experienced greater mortality than others, how city government responded, and how journalists, scientists, and public officials reported and explained these events. Through years of fieldwork, interviews, and research, he uncovers the surprising and unsettling forms of social breakdown that contributed to this human catastrophe as hundreds died alone behind locked doors and sealed windows, out of contact with friends, family, community groups, and public agencies. As this incisive and gripping account demonstrates, the widening cracks in the social foundations of American cities made visible by the 1995 heat wave remain in play in America’s cities today—and we ignore them at our peril. Includes photos and a new preface on meeting the challenges of climate change in urban centers “Heat Wave is not so much a book about weather, as it is about the calamitous consequences of forgetting our fellow citizens. . . . A provocative, fascinating book, one that applies to much more than weather disasters.” —Chicago Sun-Times “It’s hard to put down Heat Wave without believing you’ve just read a tale of slow murder by public policy.” —Salon “A classic. I can’t recommend it enough.” —Chris Hayes
This handbook presents, for the first time, an authoritative, comprehensive reference on meteorological knowledge and technology. Designed for professionals and technicians outside the meteorological profession, this broad-ranging book offers general guidelines for those who need information on the effects of weather, e.g., on heating requirements and structural strength. Discusses the importance of meteorology in engineering and science as well as its general importance in society.
An authoritative volume focusing on multidisciplinary methods to estimate the impacts of climate-related extreme events to society As the intensity and frequency of extreme events related to climate change continue to increase, there is an urgent need for clear and cohesive analysis that integrates both climatological and socioeconomic impacts. Extreme Events and Climate Change provides a timely, multidisciplinary examination of the impacts of extreme weather under a warming climate. Offering wide-ranging coverage of the methods and analysis that relate changes in extreme events to their societal impacts, this volume helps readers understand and overcome the methodological challenges associated with extreme event analysis. Contributions from leading experts from across disciplines describe the theoretical requirements for analyzing the complex interactions between meteorological phenomena and the resulting outcomes, discuss new approaches for analyzing the impacts of extreme events on society, and illustrate how empirical and theoretical concepts merge to form a unified plan that enables informed decision making. Throughout the text, innovative frameworks allow readers to find solutions to the modeling and statistical challenges encountered when analyzing extreme events. Designed for researchers and policy makers alike, this important resource: Discusses topics central to understanding how extreme weather changes as the climate warms Provides coverage of analysis methods that relate changes in extreme events to their societal impacts Reviews significant theoretical and modeling advances in the physical aspects of climate science Presents a comprehensive view of state of the science, including new ways of using data from different sources Extreme Events and Climate Change: A Multidisciplinary Approach is an indispensable volume for students, researchers, scientists, and practitioners in fields such as hazard and risk analysis, climate change, atmospheric and ocean sciences, hydrology, geography, agricultural science, and environmental and space science.
As climate has warmed over recent years, a new pattern of more frequent and more intense weather events has unfolded across the globe. Climate models simulate such changes in extreme events, and some of the reasons for the changes are well understood. Warming increases the likelihood of extremely hot days and nights, favors increased atmospheric moisture that may result in more frequent heavy rainfall and snowfall, and leads to evaporation that can exacerbate droughts. Even with evidence of these broad trends, scientists cautioned in the past that individual weather events couldn't be attributed to climate change. Now, with advances in understanding the climate science behind extreme events and the science of extreme event attribution, such blanket statements may not be accurate. The relatively young science of extreme event attribution seeks to tease out the influence of human-cause climate change from other factors, such as natural sources of variability like El Niño, as contributors to individual extreme events. Event attribution can answer questions about how much climate change influenced the probability or intensity of a specific type of weather event. As event attribution capabilities improve, they could help inform choices about assessing and managing risk, and in guiding climate adaptation strategies. This report examines the current state of science of extreme weather attribution, and identifies ways to move the science forward to improve attribution capabilities.
Now updated with key developments in mitigation and adaptation from the last decade, Climate Change and Public Health, Second Edition offers an engaging overview of climate change and its health consequences alongside evolving methods for climate resilience.
This edited book first gives an overview of issues in the studies of atmospheric sciences and then elaborates on extreme events in air pollution, their assessment, impacts, and mitigation strategies. It covers general overview of factors governing in atmosphere that lead to air pollution, description about recent and hazardous air pollution episodes, emergencies and extremes in atmospheric sciences, impact studies on living organisms and atmosphere related to emergencies and possible remedies/mitigation strategies which may also include green growth strategies for management. Increase in anthropogenic activities from different sources results in very high concentrations of air pollutants in the atmospheres and they lead to cause disturbance in seasonal cycles and atmospheric phenomena, ecological imbalance and change in the quality of air. These impacts are the major cause of short-term or long-term effects on living and non-living systems. In the recent years, several instances of extremes atmosphere and air pollution related emergencies causing accidental episodes, fog, smog, health related, heat and cold wave etc. are experienced. This book brings the attention on such issues in atmospheric sciences and discuss the disaster preparedness and management plus emergencies. This book is valuable reading material for students in Environmental Science, Biological Science, Medical Science, Policy Planning, Disaster Management and Agriculture. It’s useful for environmental consultants, researchers and other professionals involved in air quality, plant, humans and disasters related research.