Synopses & Reviews
This textbook provides a modern, quantitative and process-oriented approach to equip students with the tools to understand geomorphology. Insight into the interpretation of landscapes is developed from basic principles and simple models, and by stepping through the equations that capture the essence of the mechanics and chemistry of landscapes. Boxed worked examples and real-world applications bring the subject to life for students, allowing them to apply the theory to their own experience. The book covers cutting edge topics, including the revolutionary cosmogenic nuclide dating methods and modeling, highlights links to other Earth sciences through up-to-date summaries of current research, and illustrates the importance of geomorphology in understanding environmental changes. Setting up problems as a conservation of mass, ice, soil, or heat, this book arms students with tools to fully explore processes, understand landscapes, and to participate in this rapidly evolving field.
Review
"... this book is terrific! ... a model of what a textbook should be, and the first place I'd send a student or colleague to get them excited about landscapes and how we study them." Chris Paola, Professor of Geology & Geophysics, St. Anthony Falls Laboratory, Minneapolis
Review
"This much needed, skillfully crafted text will be welcomed by the geomorphology community. ... the text can be used for an introductory course, or as part of a more advanced course. ... The overall reaction of my students using a draft version has been very positive." David Jon Furbish, Professor & Chair, Department of Earth & Environmental Sciences, Vanderbilt University
Review
"A wonderful, wide ranging review of the modern science of geomorphology." Niels Hovius, Lecturer, Department of Earth Sciences, University of Cambridge
Review
"The book is both authoritative and accessible, encouraging students (and instructors) to think creatively and precisely about how the landscape evolves. Unlike previous geomorphology texts, it provides a consistent approach for defining and solving models for the full range of features found on the surface of the Earth." Peter R. Wilcock, Professor & Associate Chair, Department of Geography & Environmental Engineering, Johns Hopkins University
Review
"It is an excellent book, especially with respect to incorporating the basic science and physics of the processes outlined in the main text as well as providing an accessible narrative explanation of the different environments covered. As such, I intend to strongly recommend ... it to my first year Earth: Portrait of a Planet module ... as one of three key texts for the module. I will emphasise this text for those students on the BSc Geography and BSc Environmental Sciences ... programmes ... as being useful throughout their undergraduate degree. In particular it will be a help for second year modules Global Environmental Change, Earth Systems Cycles and Research Strategies in Physical Environments, as well as providing preliminary reading for specialist modules in the third year." Dr Simon Carr, School of Geography, Queen Mary University of London
Review
"... an excellent book, especially with respect to incorporating the basic science and physics of the processes outlined in the main text as well as providing an accessible narrative explanation of the different environments covered." Dr Simon Carr, Queen Mary University of London
Synopsis
Modern, quantitative, process-oriented approach to geomorphology and the role of Earth surface processes in shaping landforms, starting from basic principles.
About the Author
Bob Anderson has taught geomorphology since 1988, first at University of California, Santa Cruz, and now at University of Colorado, Boulder. Bob has now studied most parts of landscapes, from the glaciated tips to the coastal toes, with significant attention to sediment transport mechanics, interaction of geophysical and geomorphic processes to shape mountain ranges, evolution of bedrock canyons and glaciated landscapes. He has participated in the development of a new tool kit that employs cosmogenic radionucides to establish timing in the landscape. He develops numerical models of landscapes that honor both field observations and first principles of conservation; these models in turn have served to hone his field efforts. In the course of this academic adventure, he was founding editor of Journal of Geophysical Research - Earth Surface, co-authored the textbook Tectonic Geomorphology (2000, Wiley-Blackwell) with Doug Burbank, and has been honoured by election as a Fellow of the American Geophysical Union.Suzanne Anderson has been on the faculty at University of Colorado, Boulder since 2004, where she teaches courses on Geomorphology, Earth's Critical Zone, Landscapes and Water, and Glaciers and Permafrost. Her awards include an Outstanding Graduate Student Instructor award at University of California, Berkeley, a NASA Graduate Student Fellowship in Global Change Research, and an NSF Earth Sciences Post-doctoral Fellowship. Suzanne's research has taken her to Svalbard, Alaska, Oregon and Nepal, and has focused on interactions between chemical weathering, hydrology, and physical erosion mechanisms. She currently directs the Boulder Creek Critical Zone Observatory, an NSF environmental observatory based at the University of Colorado and involving researchers from four institutions and agencies. Suzanne was editor of Arctic, Antarctic and Alpine Research from 2004-2006, and served as an associate editor of Journal of Geophysical Research - Earth Surface from 2002-2006.
Table of Contents
Preface; 1. Introduction; 2. Whole Earth morphology; 3. Large scale morphology: the roles of geophysics; 4. Tectonic geomorphology; 5. Atmospheric processes and climate; 6. Establishing timing in the landscape: dating methods; 7. Weathering; 8. Glaciers and glacial geology; 9. Periglacial forms and processes; 10. Hillslopes; 11. Water in the landscape; 12. Rivers; 13. Bedrock channel incision; 14. Sediment transport mechanics; 15. Eolian processes and forms; 16. Coastal geomorphology; 17. Geomorphology of big floods; 18. Whole landscapes; Appendix A. Physics; Appendix B. Math; References; Index.