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Why do volcanoes go "ka-boom!"? This unique approach to vulcanology is highly inspiring to young children. The use of carefully selected images only help in driving home certain points of discussion. This is a picture book that your child will definitely love and learn the most from. Don't forget to grab a copy today!
Volcanic eruptions are common, with more than 50 volcanic eruptions in the United States alone in the past 31 years. These eruptions can have devastating economic and social consequences, even at great distances from the volcano. Fortunately many eruptions are preceded by unrest that can be detected using ground, airborne, and spaceborne instruments. Data from these instruments, combined with basic understanding of how volcanoes work, form the basis for forecasting eruptionsâ€"where, when, how big, how long, and the consequences. Accurate forecasts of the likelihood and magnitude of an eruption in a specified timeframe are rooted in a scientific understanding of the processes that govern the storage, ascent, and eruption of magma. Yet our understanding of volcanic systems is incomplete and biased by the limited number of volcanoes and eruption styles observed with advanced instrumentation. Volcanic Eruptions and Their Repose, Unrest, Precursors, and Timing identifies key science questions, research and observation priorities, and approaches for building a volcano science community capable of tackling them. This report presents goals for making major advances in volcano science.
An exhilarating, time-traveling journey to the solar system’s strangest and most awe-inspiring volcanoes. Volcanoes are capable of acts of pyrotechnical prowess verging on magic: they spout black magma more fluid than water, create shimmering cities of glass at the bottom of the ocean and frozen lakes of lava on the moon, and can even tip entire planets over. Between lava that melts and re-forms the landscape, and noxious volcanic gases that poison the atmosphere, volcanoes have threatened life on Earth countless times in our planet’s history. Yet despite their reputation for destruction, volcanoes are inseparable from the creation of our planet. A lively and utterly fascinating guide to these geologic wonders, Super Volcanoes revels in the incomparable power of volcanic eruptions past and present, Earthbound and otherwise—and recounts the daring and sometimes death-defying careers of the scientists who study them. Science journalist and volcanologist Robin George Andrews explores how these eruptions reveal secrets about the worlds to which they belong, describing the stunning ways in which volcanoes can sculpt the sea, land, and sky, and even influence the machinery that makes or breaks the existence of life. Walking us through the mechanics of some of the most infamous eruptions on Earth, Andrews outlines what we know about how volcanoes form, erupt, and evolve, as well as what scientists are still trying to puzzle out. How can we better predict when a deadly eruption will occur—and protect communities in the danger zone? Is Earth’s system of plate tectonics, unique in the solar system, the best way to forge a planet that supports life? And if life can survive and even thrive in Earth’s extreme volcanic environments—superhot, superacidic, and supersaline surroundings previously thought to be completely inhospitable—where else in the universe might we find it? Traveling from Hawai‘i, Yellowstone, Tanzania, and the ocean floor to the moon, Venus, and Mars, Andrews illuminates the cutting-edge discoveries and lingering scientific mysteries surrounding these phenomenal forces of nature.
"Learn more about the destructive force of volcanoes through powerful images and stories. Clear text emphasizes scientific efforts to better understand how to prepare for volcanic eruptions, while appropriately high-impact visuals keep readers engaged"--Provided by publisher.
Questions and answers provide information about volcanoes and earthquakes, covering such aspects as why, how, when, and where these phenomena occur.
The first comprehensive assessment of global volcanic hazards and risk, with detailed regional profiles, for the disaster risk reduction community. Also available as Open Access.
How do volcanoes erupt, what makes earthquakes so destructive, and why do tsunamis happen? Volcanoes, Earthquakes and Tsunamis answers these questions and more, giving you everything you need to know about these powerful natural phenomena. It covers the plate tectonic background to Earth processes, where magma is made and how it erupts, volcano types, eruption hazards and how they are monitored, faults and earthquakes, the causes of tsunamis and tsunami preparedness. You will examine many examples of these frightening events, find out to what extent they can be predicted and mitigated against, and come to realize how they are related and the impact they have on human society and the natural world. Written by Dr David Rothery, a volcanologist, geologist, planetary scientist and Professor of Planetary Geosciences at the Open University, Volcanoes, Earthquakes and Tsunamis: A Complete Introduction is designed to give you everything you need to know, all in one place. It covers the key areas that students are expected to be confident in, outlining the basics in clear English and providing added-value features like a glossary of essential terms and even examples of questions you might be asked in your seminar or exam. The book covers the essentials of most university courses, with an introduction on how the Earth moves, followed by separate sections on volcanoes (including eruptions, types of volcano, volcanic hazards, volcanoes and climate, monitoring volcanoes, predicting eruptions and living with volcanoes), earthquakes (including faults, measurement, seismic monitoring, prediction, prevention and preparedness) and tsunamis. The colour plates referred to in the book can be downloaded from the Teach Yourself online library or accessed through the Teach Yourself Library app.
Volcanic seismology represents the main, and often the only, tool to forecast volcanic eruptions and to monitor the eruption process. This book describes the main types of seismic signals at volcanoes, their nature and spatial and temporal distributions at different stages of eruptive activity. Following from the success of the first edition, published in 2003, the second edition consists of 19 chapters including significant revision and five new chapters. Organized into four sections, the book begins with an introduction to the history and topic of volcanic seismology, discussing the theoretical and experimental models that were developed for the study of the origin of volcanic earthquakes. The second section is devoted to the study of volcano-tectonic earthquakes, giving the theoretical basis for their occurrence and swarms as well as case stories of volcano-tectonic activity associated with the eruptions at basaltic, andesitic, and dacitic volcanoes. There were 40 cases of volcanic eruptions at 20 volcanoes that occurred all over the world from 1910 to 2005, which are discussed. General regularities of volcano-tectonic earthquake swarms, their participation in the eruptive process, their source properties, and the hazard of strong volcano-tectonic earthquakes are also described. The third section describes the theoretical basis for the occurrence of eruption earthquakes together with the description of volcanic tremor, the seismic signals associated with pyroclastic flows, rockfalls and lahars, and volcanic explosions, long-period and very-long-period seismic signals at volcanoes, micro-earthquake swarms, and acoustic events. The final section discuss the mitigation of volcanic hazard and include the methodology of seismic monitoring of volcanic activity, the examples of forecasting of volcanic eruptions by seismic methods, and the description of seismic activity in the regions of dormant volcanoes. This book will be essential for students and practitioners of volcanic seismology to understand the essential elements of volcanic eruptions. - Provides a comprehensive overview of seismic signals at different stages of volcano eruption. - Discusses dozens of case histories from around the world to provide real-world applications. - Illustrations accompany detailed descriptions of volcano eruptions alongside the theories involved.