Floods of May 30 to June 15, 2008, in the Iowa River and Cedar River Basins, Eastern Iowa
Floods of May 30 to June 15, 2008, in the Iowa River and Cedar River Basins, Eastern Iowa

Author: S. Mike Linhart

Publisher: Geological Survey

Published: 2010

Total Pages: 110

ISBN-13:

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Within the Iowa River Basin, peak discharges of 51,000 cubic feet per second (flood-probability estimate of 0.2 to 1 percent) at the 05453100 Iowa River at Marengo, Iowa streamflow-gaging station (streamgage) on June 12, and of 39,900 cubic feet per second (flood-probability estimate of 0.2 to 1 percent) at the 05453520 Iowa River below Coralville Dam near Coralville, Iowa streamgage on June 15 are the largest floods on record for those sites. A peak discharge of 41,100 cubic feet per second (flood-probability estimate of 0.2 to 1 percent) on June 15 at the 05454500 Iowa River at Iowa City, Iowa streamgage is the fourth highest on record, but is the largest flood since regulation by the Coralville Dam began in 1958. Within the Cedar River Basin, the May 30 to June 15, 2008, flood is the largest on record at all six streamgages in Iowa located on the mainstem of the Cedar River and at five streamgages located on the major tributaries.

Natural Hazards and Disasters [2 volumes]
Natural Hazards and Disasters [2 volumes]

Author: Bimal Kanti Paul

Publisher: Bloomsbury Publishing USA

Published: 2020-12-07

Total Pages: 753

ISBN-13: 1440862141

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This two-volume encyclopedia provides the science behind such heart-pumping geophysical hazards as volcanic eruptions, earthquakes, cyclones, and floods, as well as authoritative entries on notable natural disasters around the world and the agencies that help those they impact. Natural Hazards and Disasters explores the sometimes harsh effects of nature on human life. The set discusses the physical science behind specific types of hazards and disasters (such as blizzards and tsunamis), their impact on our lives, how damage is mitigated or prevented, recovery and reconstruction, and the current research and technology used for managing or even eliminating the hazards. Written by experts in the field, the set also explores a variety of extreme events from around the world, including the 2010–2011 Christchurch Earthquakes (New Zealand), the 2017–2018 Thomas Fire (United States), and the 2018 Kerala Floods (India). Also covered are the world's major international and nonprofit aid agencies, like the Salvation Army and Oxfam, that assist disaster victims.

Atmospheric Rivers
Atmospheric Rivers

Author: F. Martin Ralph

Publisher: Springer Nature

Published: 2020-07-10

Total Pages: 284

ISBN-13: 3030289060

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This book is the standard reference based on roughly 20 years of research on atmospheric rivers, emphasizing progress made on key research and applications questions and remaining knowledge gaps. The book presents the history of atmospheric-rivers research, the current state of scientific knowledge, tools, and policy-relevant (science-informed) problems that lend themselves to real-world application of the research—and how the topic fits into larger national and global contexts. This book is written by a global team of authors who have conducted and published the majority of critical research on atmospheric rivers over the past years. The book is intended to benefit practitioners in the fields of meteorology, hydrology and related disciplines, including students as well as senior researchers.

The Great Dayton Flood of 1913
The Great Dayton Flood of 1913

Author: Trudy E. Bell

Publisher: Arcadia Publishing

Published: 2008

Total Pages: 132

ISBN-13: 9780738551791

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Beginning on Easter Sunday, March 23, 1913, torrential rains across the Midwest dropped a record three months of rainfall in four days. Floodwaters funneled down Ohio's Miami Valley into the heart of the vibrant industrial city of Dayton. Levees burst, houses were swept away, and downtown was gutted by fires blazing from broken gas mains. At the end of Easter week, nearly 100 Daytonians had perished, and tens of thousands more were left homeless and destitute--a tragedy that made banner headlines in newspapers nationwide. Out of Dayton's ashes and mud rose fierce public resolve never again to suffer such destruction. The Great Dayton Flood of 1913 reproduces some 200 astounding photographs from the collections of the Dayton Metro Library and the Miami Conservancy District and the archives of the National Cash Register Company at Dayton History. They portray the terrifying flood, monumental destruction, heroic rescues, and compassionate leadership that occurred during the disaster and its immediate aftermath, as well as the pioneering flood-control engineering that has kept Dayton safe ever since.

Floods in the Nishnabotna River Basin, Iowa
Floods in the Nishnabotna River Basin, Iowa

Author: David A. Eash

Publisher:

Published: 1991

Total Pages: 144

ISBN-13:

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Flood-elevation profiles and flood-peak discharges for floods during 1972, 1982, and 1987 in the Nishnabotna River basin are given in the report. The profiles are for the 1972 flood on the West and East Nishnabotna Rivers, the 1982 flood on Indian Creek, and the 1987 flood on the lower West Nishnabotna River. A flood history describes rainfall conditions and reported damages for floods occurring 1947, 1958, 1972, 1982, and 1987. Discharge for the 1982 flood on Indian Creek is 1.1 times larger than the 100-year recurrence interval discharge.

Floodplain Management
Floodplain Management

Author: Bob Freitag

Publisher: Island Press

Published: 2012-06-22

Total Pages: 255

ISBN-13: 1610911326

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A flooding river is very hard to stop. Many residents of the United States have discovered this the hard way. Right now, over five million Americans hold flood insurance policies from the National Flood Insurance Program, which estimates that flooding causes at least six billion dollars in damages every year. Like rivers after a rainstorm, the financial costs are rising along with the toll on residents. And the worst is probably yet to come. Most scientists believe that global climate change will result in increases in flooding. The authors of this book present a straightforward argument: the time to stop a flooding rivers is before is before it floods. Floodplain Management outlines a new paradigm for flood management, one that emphasizes cost-effective, long-term success by integrating physical, chemical, and biological systems with our societal capabilities. It describes our present flood management practices, which are often based on dam or levee projects that do not incorporate the latest understandings about river processes. And it suggests that a better solution is to work with the natural tendencies of the river: retreat from the floodplain by preventing future development (and sometimes even removing existing structures); accommodate the effects of floodwaters with building practices; and protect assets with nonstructural measures if possible, and with large structural projects only if absolutely necessary.