Book Description
The first book of its kind that addresses the issues of global change from a perspective of Earth as a system, The Earth System offers a solid emphasis on lessons from Earth history that may guide decision-making in the future. This book teaches global change and how it affects our environment. Modern topics covered by this comprehensive book are the atmosphere and global warming, the circulation of the oceans, plate tectonics, ecosystems, the origin of Earth and life, the rise of oxygen and ozone depletion, biodiversity, and climate stability. Because of its incredibly detailed appendices, tables, and suggestions for further reading, this will make an excellent reference work for geologists, oceanographers, meteorologists, and geographers.
Book Info
Introduces the concepts needed to begin study of the discipline of Earth system science. Devoted to understanding the ways in which carbon, in various forms, is cycled back and forth between the atmosphere, oceans, solid Earth, and the biota. Softcover.
From the Back Cover
The Earth System, Second Edition employs a systems-based approach to examine Earth science at the global level. This text explores how: Earth's processes have connections to the past and to each other Seemingly small-scale changes to Earth can have large-scale effects Processes that are occurring now are molding the course of the future The second edition incorporates two new chapters: Modeling the Atmosphere-Ocean SystemA discussion of why numerical models are necessary, how they are used, what they can tell us about past and future climates, and what their limitations are. A Focus on the Biota: Ecosystems and BiodiversityFocuses on life's role in the Earth system, how ecosystems function, what biodiversity is, and whether or not biological diversity enhances the stability of ecosystems. Three categories of boxed text are included and offer a deeper study of the topics presented. A Closer LookIncludes more advanced concepts, results from current research, and explanations of interesting phenomena. Important ConceptsIn-depth presentations of fundamental concepts from the natural sciences essential to our understanding of the Earth system. Thinking QuantitativelyDemonstrates how simple mathematics can be used to better understand the workings of the Earth system.
About the Author
Lee R. KumpGeology and is now editor of the Virtual Journal of Geobiology and associate editor of Geochimica et Cosmochimica Acta. He is a fellow of the Geological Society of America, and received the Distinguished Service Medal from the Geological Society of America in 2000. Dr. Kump's research interests include the behavior of nutrient and trace elements in natural environments, the evolution of ocean and atmosphere composition on geologic time scales, biogeochemical cycling in aquatic environments, and environmental change during extreme events (mass extinctions, extreme warm periods, glaciations) in Earth history. James F. Kasting is a Professor at Penn State University, where he holds joint appointments in the Departments of Geosciences and Meteorology and is an affiliate of the NASA Astrobiology Institute and Penn State's ESSC. He received his undergraduate degree from Harvard University in Chemistry and Physics and did his PhD in Atmospheric Sciences at the University of Michigan. Prior to coming to Penn State in 1988, he spent 7 year§ in the Space Science Division at NASA Ames Research Center. Dr. Kasting is a Fellow of the American Association for the Advancement of Science and of the International Society for the Study of the Origin of Life. His research focuses on the evolution of planetary atmospheres, particularly the question of why the atmospheres of Mars and Venus are so different from that of Earth. Dr. Kasting is also interested in the question of whether habitable planets exist around other stars and how we might look for signatures of life by doing spectroscopy on their atmospheres. Robert G. Crane received his PhD in Geography from the University of Colorado, Boulder. After working as a Research Associate in the National Snow and Ice Data Center and the World Data Center-A for Glaciology in Boulder, he spent a year teaching at the University of Saskatchewan before moving to Penn State in 1985. Dr. Crane's research has been on microwave remote sensing of sea ice, ice-climate interactions, and, more recently, regional-scale climate change, climate downscaling techniques, and climate change and variability in southern Africa. He is coeditor of a text on the applications of artificial neural networks in geography. Currently Dr. Crane holds the position of Professor in the Department of Geography and an affiliate of the ESSC. He also serves as the Associate Dean for Education in the College of Earth and Mineral Sciences at Penn State.
Excerpt. © Reprinted by permission. All rights reserved.
This is not a traditional Earth science textbook. Such books treat individual components of the Earth systemthe solid Earth, atmosphere, and oceansseparately, with little consideration of the interplay among them or the important interactions with living organisms (the stuff of ecology texts). And, although they are the focus of this book, the modern environmental problems of global warming, ozone depletion, and loss of biodiversity are treated in a fundamentally different way here than in most texts. Here we recognize that these problems have analogues from Earth history: The geological past is the key to the present and to the future. Content Chapter 1, "Global Change," is an overview of these important issuesthe observational data that convince us that serious problems exist and the events in Earth's history that illuminate how the Earth system responds under stress. The rest of the book is organized into three major sections. Chapters 2 through 9 are devoted to an exploration of how Earth "works." They develop the notion that processes active on Earth's surface are functioning together to regulate climate, the circulation of the ocean and atmosphere, and the recycling of the elements. The biota play an important role in all of these processes. Chapters 10 through 15 take the reader through the history of Earth, highlighting those events that provide lessons for the future. The final four chapters focus on the future of the Earth system, addressing the modern problems of global change and the prospect of life on other planets in the context of what was presented in the first two sections. Revisions to the First Edition In the four years since the first edition of this book came out, a lot has changed. Atmospheric CO2 has increased by about 7 parts per million, freon-11 concentrations have decreased by 6 parts per trillion, and global surface temperatures have continued their inexorable but ragged rise. For this reason alonejust to keep up with the new data on global changea book like this one needs to be regularly updated. However, it is not just the data that are changing. Ideas have been evolving as well during the past four years. New geologic evidence indicates that "Snowball Earth" episodes actually occurred not just once but several times during Earth's history. The case has been made that CH4, rather than (or in addition to) CO2, was the main greenhouse gas that helped to keep the early Earth warm despite reduced solar luminosity. The IPCC (Intergovernmental Panel on Climate Change) released a new report that for the first time states unambiguously that human activities are responsible for at least part of the observed surface temperature increase. And NASA's generous support for the new discipline of "astrobiology" has made us even more aware of the tight connections between the evolving Earth and its biota. We have tried to reflect these and other changes in the revised edition of our book. We have added two new chapters: Chapter 6 (on global climate models) and Chapter 9 (on the biota, ecosystems, and biodiversity). We've also expanded our discussion of early Earth, now devoting two chapters to the topic: Chapter 10, on the origin of Earth and of life, and Chapter 11, on the effect life has had on the development of the atmosphere. Some of this involved simply reorganizing material that had previously been included in other chapters; however, a significant amount of new material has been added. Chapter 9 recognizes the importance of numerical modeling in the establishment of policy for a changing world. Chapter 9 highlights the role that the biota plays in the Earth system. Chapters 10 and 11 draw on the "universal" tree of life derived from sequencing of ribosomal RNA that places humans and fungi as closer relatives than different forms of bacteria. The order of Chapters 11 and 12 (Chapters 8 and 9 in the first edition) has been switched to reflect the increased importance of the O2/CH4 story for Precambrian paleoclimates. Organization and Pedagogy As in the first edition, we have employed a number of pedagogical features to assist in the learning process. Each chapter begins with "Key Questions" (objective questions students should be able to answer after they have read the chapter) and a "Chapter Overview" (a broad preview of the chapter to come). Within each chapter are boxed essays that provide interesting asides, more detailed or quantitative treatments of material in the text, or recent advances in scientific understanding. A "Chapter Summary" is provided in outline form at the end of each chapter to aid in reviewing the most important concepts. "Suggested Readings" include both general readings and advanced readings for students (and instructors) interested in further information about the subject matter. These are followed by "Key Terms" lists, which consist of boldfaced terms that are introduced in the chapter and that appear in the "Glossary" in the back of the book. "Review Questions" focus students' review on important concepts and require only brief answers, whereas "Critical-Thinking Questions" are thought questions or analytical exercises that require students to synthesize concepts presented in the chapter. In designing this second edition, we have tried to organize our topics more logically and categorize special topics into "boxes" of different types, with the designations A Closer Look, which offers a closer examination of topics discussed in the book; Important Concepts, with in-depth presentations of fundamental concepts from the natural sciences essential to our understanding of the Earth system; and Thinking Quantitatively, which emphasizes how mathematics is used to better understand the workings of the Earth system. Instructors may choose whether to make any or all of these boxes assigned reading. We have also corrected errors pointed out to us by our students and by other faculty using the book, and we've brought the data graphs up to date. We hope that these changes will help make the book easier to use in a variety of different courses, as well as being more accessible and informative to students. Chapter Sequencing We anticipate that this book will be used in a variety of ways. We teach a general education class at The Pennsylvania State University that covers approximately three-quarters of the book during one semester. Several instructors teach this course, but not all of us choose to cover the same chapters. An instructor who is most interested in climate issues, for example, might use Chapters 1-6, 8 12, 14-16, and 19. One who is most interested in biodiversity might choose Chapters 1, 2, 8-11, 13, ant 18. The course can also be tailored to emphasize either Earth history (Chapters 1, 2, 3, and 9-15) or modern global environmental problems (Chapters 1-6, 8, 9, and 16-19"' By providing more material than can easily be covered ii a one-semester course, we provide the flexibility to emphasize topics or topic areas that are of interest to different instructors and different groups of students.
The Earth System FROM THE PUBLISHER
B> The first book that addresses the issues of global change from a true Earth systems perspective,this new book offers a solid emphasis on lessons from Earth history that may guide decision-making in the future. Offers an innovative systems theory approach that allows for a new way of organizing information from a variety of disciplines as well as of predicting responses of systems to disturbance. Utilizes an Earth history perspective that links the Earth sciences closely with modern global change problems. Includes two boxed features throughout the book that address topical issues related to the material in the text, of high appeal and that discuss advanced, especially quantitative, treatments. Features several computer modules available on the World Wide Web and free when packaged with the book. For Earth scientists who would like a formal introduction to Earth Systems Science.
SYNOPSIS
Thefirst book that addresses the issues of global change from a true Earth systemsperspective,this new book offers a solid emphasis on lessons from Earthhistory that may guide decision-making in the future. Offersan innovative systems theory approach that allows for a new way of organizinginformation from a variety of disciplines as well as of predicting responses ofsystems to disturbance. Utilizes an Earth history perspective that links theEarth sciences closely with modern global change problems. Includes two boxedfeatures throughout the book that address topical issues related to thematerial in the text, of high appeal and that discuss advanced, especiallyquantitative, treatments. Features several computer modules available on theWorld Wide Web and free when packaged with the book. For Earthscientists who would like a formal introduction to Earth Systems Science.
FROM THE CRITICS
Booknews
A non-traditional introductory text for non-science majors, using a top-down approach to unifying principles in the natural sciences. Components of the Earth system are treated with consideration of the interplay among them and interactions with living organisms, and environmental problems such as global warming are understood through past events in Earth's history that illuminate how the Earth system responds under stress. Pedagogical features include chapter overviews and summaries, key terms, review questions, and critical thinking problems, plus boxed readings on recent advances. Includes a glossary. Annotation c. Book News, Inc., Portland, OR (booknew.com)