Mountains are alpine biomes, which are home to an intriguing number of plants and animals. Some mountain animals, such as the yak, have been adapted for agriculture by humans. This intriguing book soars to new heights with simple-to-understand maps and detailed facts about an often-overlooked biome.
Take a captivating journey across the continent of Europe to view the incredible array of plants and animals that live, hunt, and hide in Europe’s distinct habitats. Stunning photographs take you along the vast length of the Danube River, through ancient Caledonian pine forests, up active volcanoes, and across the Alps.
We cannot prevent volcanic eruptions, but we can try to minimize their impact on humans. This interesting book examines what scientists know about eruptions, whether we can predict them, and how we learn from each one. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict volcanic eruptions and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot always prevent landslides and avalanches, but we can learn how to minimize their impact on humans. This informative book examines what scientists know about the sudden movement of earth or snow, whether we can predict these slides, and how we learn from each event. By studying the harm they cause, scientists and engineers continue to come up with new and improved technologies to predict landslides and avalanches and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent heat waves or droughts, but we can try to minimize their impact on humans. This important book examines what scientists know about extreme heat events, whether we can predict them, and how we learn from each one. By studying the harm they cause, scientists and engineers continue to come up with new and improved technologies to predict extreme weather and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent blizzards and ice storms, but we can learn how to minimize their impact on humans. This informative book examines what scientists know about extreme ice and snowfalls, whether we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict winter storms and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
As people expand settlement into wilder areas, the impact of wildfires, both naturally occurring and human-set, becomes more destructive. This timely book examines what scientists know about wildfires, whether we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict and control wildfires and better protect cities, buildings, and people. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent tsunamis, but we can try to minimize their impact on humans. This interesting book examines what scientists know about tsunamis, how we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict catastrophic waves and better protect cities, buildings, and people. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent tornadoes, but we can try to minimize their impact on humans. This important book examines what scientists know about tornadoes, how we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict severe weather and better protect cities, buildings, and people. Case studies and brief bios of key scientists and organizations highlight the information.
Flooding from torrential rain and melting snows can devastate areas where people live. This informative book examines what scientists know about flooding, whether we can predict floods, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict severe weather and better protect cities, buildings, and people. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent earthquakes, but we can try to minimize their impact on humans. This important book examines what scientists know about earthquakes, whether we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict earthquakes and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
Read about unusual animal journeys around the world, from wandering saltwater crocodiles to invasive insect species and outbreaks of Australian plague locust. Interesting facts, unexpected outcomes, and human impacts on the journeys are highlighted.
Read about extraordinary animal migrations by water, from tremendous upstream journeys by Pacific salmon to the extreme long-distance migration of the humpback whale. Interesting facts and obstacles are highlighted, and a sidebar details how humans impact each migration.
Read about extraordinary animal migrations by land, from the millions of red crabs that migrate at the exact same time on Christmas Island to the grueling journey of the pronghorn in North America. Interesting facts and obstacles are highlighted, and a sidebar details how humans impact each migration.
Read about extraordinary animal migrations by air, from the incredible migration of the godwit between Alaska and New Zealand to the long-lasting journey of the monarch butterfly across North America. Interesting facts and obstacles are highlighted, and a sidebar details how humans impact each migration.
This engaging journey through the continent of Europe helps show how humans affect, and are affected by, the environments in which they live. Readers will gain an understanding of the continent's various landforms, resources, and human activities. Examples featured include traveling by train through a tunnel in the Alps, riding a water bus in the canals of Venice, and cycling along the Danube River.
The year 2017 saw the most active and costly hurricane season on record. Moving photographs help tell the human stories of Harvey, hitting Texas and Louisiana; Irma, the strongest Atlantic basin hurricane ever recorded, pummeling Florida; and Maria, the worst natural disaster ever to hit Puerto Rico and Dominica. Detailed information tracks the paths of each storm, the clean-ups that followed, what remains to do.
It cost $10 billion to combat the wildfires in California in 2017 that scorched 300,000 acres of land and left 100,000 people displaced. With dry weather and drought bringing more catastrophic wildfires to the western United States and Canada, this timely title discusses the human and physical impacts of these and other fire disasters and how fire professionals and policymakers are combatting them.
Examines how scientists study wildfires. With colorful spreads featuring fun facts, sidebars, a disaster preparedness checklist, and a "How It Works" feature, this book provides an exciting look at the science of disaster detection.
Examines how scientists study volcanic eruptions. With colorful spreads featuring fun facts, sidebars, a disaster preparedness checklist, and a "How It Works" feature, this book provides an exciting look at the science of disaster detection.
Examines how scientists study tsunamis. With colorful spreads featuring fun facts, sidebars, a disaster preparedness checklist, and a "How It Works" feature, this book provides an exciting look at the science of disaster detection.
Examines how scientists study tornadoes. With colorful spreads featuring fun facts, sidebars, a disaster preparedness checklist, and a "How It Works" feature, this book provides an exciting look at the science of disaster detection.
Examines how scientists study hurricanes. With colorful spreads featuring fun facts, sidebars, a disaster preparedness checklist, and a "How It Works" feature, this book provides an exciting look at the science of disaster detection.
Examines how scientists study floods. With colorful spreads featuring fun facts, sidebars, a disaster preparedness checklist, and a "How It Works" feature, this book provides an exciting look at the science of disaster detection.
Examines how scientists study earthquakes. With colorful spreads featuring fun facts, sidebars, a disaster preparedness checklist, and a "How It Works" feature, this book provides an exciting look at the science of disaster detection.
