Even though Mount Everest measures 29,028 feet high, it may be growing about two inches a year. A mountain might be thousands of feet high, but it can still grow taller or shorter each year. Mountains are created when the huge plates that make up the earth's outer shell very slowly pull and push against one another. Read and find out about all the different kinds of mountains.
For all those young scientists who aren't mountain climbers, this lively look at high-altitude ecosystems takes us to the highest peaks to learn about the amazing interactions between plants and animals of the mountains. From high-flying bees that pollinate the flowers to lumbering bears who spread seeds for plant growth, mountain organisms need each other in a multitude of ways. Flowcharts throughout this brightly designed book elucidate important concepts such as mountain food chains and the effects of climate change on mountain ecosystems.
The incredible story of the creation of a continent—our continent— from the acclaimed author of The Last Volcano and Mask of the Sun. The immense scale of geologic time is difficult to comprehend. Our lives—and the entirety of human history—are mere nanoseconds on this timescale. Yet we hugely influenced by the land we live on. From shales and fossil fuels, from lake beds to soil composition, from elevation to fault lines, what could be more relevant that the history of the ground beneath our feet? For most of modern history, geologists could say little more about why mountains grew than the obvious: there were forces acting inside the Earth that caused mountains to rise. But what were those forces? And why did they act in some places of the planet and not at others? When the theory of plate tectonics was proposed, our concept of how the Earth worked experienced a momentous shift. As the Andes continue to rise, the Atlantic Ocean steadily widens, and Honolulu creeps ever closer to Tokyo, this seemingly imperceptible creep of the Earth is revealed in the landscape all around us. But tectonics cannot—and do not—explain everything about the wonders of the North American landscape. What about the Black Hills? Or the walls of chalk that stand amongst the rolling hills of west Kansas? Or the fact that the states of Washington and Oregon are slowly rotating clockwise, and there a diamond mine in Arizona? It all points to the geologic secrets hidden inside the 2-billion-year-old-continental masses. A whopping ten times older than the rocky floors of the ocean, continents hold the clues to the long history of our planet. With a sprightly narrative that vividly brings this science to life, John Dvorak's How the Mountains Grew will fill readers with a newfound appreciation for the wonders of the land we live on.
In this Very Short Introduction, Martin Price addresses the role of mountains in global ecosystems and within human culture. Considering the global effects of melting glaciers, and the conservation of mountain regions and peoples, he discusses the future of mountainous regions and the implications for all of us.
"In the trademark Simon style, carefully selected color photos, drawings, and a clear and informative text tell the story of Earth's mountains: their formation, relative sizes, ecology, and influence on weather....Simon may have done more than any other living author to help us understand and appreciate the beauty of our planet and our universe;
Mountains cover a quarter of the Earth’s land surface and a quarter of the global population lives in or adjacent to these areas. The global importance of mountains is recognized particularly because they provide critical resources, such as water, food and wood; contain high levels of biological and cultural diversity; and are often places for tourism and recreation and/or of sacred significance. This major revision of Larry Price’s book Mountains and Man (1981) is both timely and highly appropriate. The past three decades have been a period of remarkable progress in our understanding of mountains from an academic point of view. Of even greater importance is that society at large now realizes that mountains and the people who reside in them are not isolated from the mainstream of world affairs, but are vital if we are to achieve an environmentally sustainable future. Mountain Geography is a comprehensive resource that gives readers an in-depth understanding of the geographical processes occurring in the world’s mountains and the overall impact of these regions on culture and society as a whole. The volume begins with an introduction to how mountains are defined, followed by a comprehensive treatment of their physical geography: origins, climatology, snow and ice, landforms and geomorphic processes, soils, vegetation, and wildlife. The concluding chapters provide an introduction to the human geography of mountains: attitudes toward mountains, people living in mountain regions and their livelihoods and interactions within dynamic environments, the diverse types of mountain agriculture, and the challenges of sustainable mountain development.
Mountains, Climate and Biodiversity: A comprehensive and up-to-date synthesis for students and researchers Mountains are topographically complex formations that play a fundamental role in regional and continental-scale climates. They are also cradles to all major river systems and home to unique, and often highly biodiverse and threatened, ecosystems. But how do all these processes tie together to form the patterns of diversity we see today? Written by leading researchers in the fields of geology, biology, climate, and geography, this book explores the relationship between mountain building and climate change, and how these processes shape biodiversity through time and space. In the first two sections, you will learn about the processes, theory, and methods connecting mountain building and biodiversity In the third section, you will read compelling examples from around the world exploring the links between mountains, climate and biodiversity Throughout the 31 peer-reviewed chapters, a non-technical style and synthetic illustrations make this book accessible to a wide audience A comprehensive glossary summarises the main concepts and terminology Readership: Mountains, Climate and Biodiversity is intended for students and researchers in geosciences, biology and geography. It is specifically compiled for those who are interested in historical biogeography, biodiversity and conservation.
The Origins of Mountains approaches mountains from facts about mountain landscapes rather than theory. The book illustrates that almost everywhere, mountains arose by vertical uplift of a former plain, and by a mixture of cracking and warping by earth movements, and erosion by rivers and glaciers, the present mountainous landscapes were created. It also gives evidence that this uplift only occured in the last few million years, a time scale which does not fit the plate tectonics theory. Another fascinating part of the evidence, shows that mountain uplift correlates very well with climatic change. Mountain building could have been responsible for the onset of the ice age. It certainly resulted in the creation of new environments. Fossil plants and animals are used in places to work out the time of mountain uplift, which in turn helps to explain biogeographical distributions.
In The Mountain, geographers Bernard Debarbieux and Gilles Rudaz trace the origins of the very concept of a mountain, showing how it is not a mere geographic feature but ultimately an idea, one that has evolved over time, influenced by changes in political climates and cultural attitudes. To truly understand mountains, they argue, we must view them not only as material realities but as social constructs, ones that can mean radically different things to different people in different settings. From the Enlightenment to the present day, and using a variety of case studies from all the continents, the authors show us how our ideas of and about mountains have changed with the times and how a wide range of policies, from border delineation to forestry as well as nature protection and social programs, have been shaped according to them. A rich hybrid analysis of geography, history, culture, and politics, the book promises to forever change the way we look at mountains.
High mountains, polar expanses, volcanic peaks are exciting and special environments. 13 leading international geographers explore different aspects of these environments - disorientation, exploration, native knowledge, polar research. This is the first book to do this.High places - be they mountain peaks or the vast expanses of the polar latitudes - have always captured the human imagination. Inaccessible, extreme, they are commonly invested with awe and reverence, as places of physical challenge, intense experience. Increasingly, they are also treated as unique locations for science."High Places" explores the fascinating geographies of these special environments, revealing how senses are challenged, objectivities exposed, cultural assumptions laid bare. Whether walking the summit of Pico de Orizaba, the fourth highest volcano in the northern hemisphere; recounting the tale of the American explorer Charles Wilkes, charged with 'immoral mapping' in Antarctica; or exploring the 200,000 year old Greenland ice core; the international contributors reveal the richness and significance of these unique locations. Embracing Europe, Asia, North and Central America, Antarctica and the Arctic, "High Places" will interest geographers, historians of science, and those interested in polar/mountain studies, landscape, culture and environment.
