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Serbia and Montenegro.
In this sweeping tour of the cosmos and our place within it, acclaimed science writer Jeff Kanipe shows the many ways we are connected to the vast universe we inhabit. Long before our apelike ancestors dropped from the trees and began playing with fire, even before the Sun emerged from its chrysalis of dust and irradiated its brood of planets, numberless and nameless astronomical events affected Earth and its emerging life-forms. Our chemical makeup--from the iron in our blood to the calcium in our bones--derives from stars that lived and died hundreds of millions of years ago. Comets have showered organic molecules into our oceans, and asteroid impacts have wiped out predominant species that lived before. Tracing the whole natural history of how events in the near and far universe have influenced life on Earth today, and how they might influence life in the future, Kanipe, with unparalleled eloquence, explores a host of intriguing questions: - How the Earth's orbit and inclination have triggered past ice ages - The role ancient supernovae may have played in mass extinctions and genetic changes - How a slight but persistent dip in solar output contributed to a multicentury cooling event called the "Little Ice Age" - How ancient asteroid impacts pressed Earth's evolutionary reset button and how astronomers are striving to make sure that it won't happen again - The widespread effects that our Sun's changing galactic environment has on life and climate Kanipe also reflects upon the possible societal effects of alien contact, a type of cosmic intervention that some astronomers believe could happen within the next few decades. His elegant, jargon-free descriptions of the truly "big-picture view" of life on Earth will fascinate and inform everyone who has an interest in astronomy, the evolution of our planet, and the future of humankind.
Tobias Krüger explores the discovery of the Ice Ages, how the idea was received, and what further research it stimulated. The approach used in Discovering the Ice Ages is uniquely sweeping. The contemporary debates on the subject are compared from an international perspective. Krüger retraces the arguments advanced from the middle of the 18th century to the threshold of the 20th century. The positions held by defenders of the glacial theory as well as those by its most important opponents are set within the context of the then current understanding of geology. In an interdisciplinary overview Krüger then focuses on the impetus gained from early ice-age research. The most prominent examples worth mentioning are the discovery of trace gases and the greenhouse effect.
A Short Introduction to Climate Change provides a clear, balanced and well documented account of one of the most important issues of our time. It covers developments in climate science over the past 250 years and shows that recent climate change is more than the result of natural variability. It explains the difference between weather and climate by examining changes in temperature, rainfall, Arctic ice and ocean currents. It also considers the consequences of our use of fossil fuels and discusses some of the ways to reduce further global warming. Tony Eggleton avoids the use of scientific jargon to provide a reader-friendly explanation of the science of climate change. Concise but comprehensive and richly illustrated with a wealth of full-colour figures and photographs, A Short Introduction to Climate Change is essential reading for anyone who has an interest in climate science and in the future of our planet. For more information please see http://www.tonyeggleton.id.au/
Experts in climate and water sciences from Canada, the United States, Brazil, Denmark, Germany, Belgium, France, Serbia, and other European countries and the UNESCO gathered at the Serbian Academy of Sciences and Arts on the occasion of the 130th birthday anniversary of the geophysicist Milutin Milankovitch. The collection of their presentations is opened by an update on the climate situation after the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Further topics include various issues of paleoclimatology, in particular as it helps reduce uncertainties from which prospects for climate change suffer; ecohydrology and climate change at the watershed scale; and regional climate models, which are discussed in terms of both their improved modeling and their use in studies of a polynya in the Antarctica and expected changes in the Mediterranean region.
On the basis of empirical studies, this book explores nature as an integral part of the social worlds conventionally studied by anthropologists. The book may be read as a form of scholarly "edgework," resisting institutional divisions and conceptual routines in the interest of exploring new modalities of anthropological knowledge making. The present interest in the natural world is partly a response to large-scale natural disasters and global climate change, and to a keen sense that nature matters matters to society at many levels, ranging from the microbiological and genetic framing of reproduction, over co-species development, to macro-ecological changes of weather and climate. Given that the human footprint is now conspicuous across the entire globe, in the oceans as well as in the atmosphere, it is difficult to claim that nature is what is given and permanent, while people and societies are ephemeral and simply derivative features. This implies that society matters to nature, and some natural scientists look towards the social sciences for an understanding of how people think and how societies work. The book thus opens up a space for new forms of reflection on how natures and societies are generated.
Climate is a paradigm of a complex system. Analysing climate data is an exciting challenge, which is increased by non-normal distributional shape, serial dependence, uneven spacing and timescale uncertainties. This book presents bootstrap resampling as a computing-intensive method able to meet the challenge. It shows the bootstrap to perform reliably in the most important statistical estimation techniques: regression, spectral analysis, extreme values and correlation. This book is written for climatologists and applied statisticians. It explains step by step the bootstrap algorithms (including novel adaptions) and methods for confidence interval construction. It tests the accuracy of the algorithms by means of Monte Carlo experiments. It analyses a large array of climate time series, giving a detailed account on the data and the associated climatological questions. “....comprehensive mathematical and statistical summary of time-series analysis techniques geared towards climate applications...accessible to readers with knowledge of college-level calculus and statistics.” (Computers and Geosciences) “A key part of the book that separates it from other time series works is the explicit discussion of time uncertainty...a very useful text for those wishing to understand how to analyse climate time series.” (Journal of Time Series Analysis) “...outstanding. One of the best books on advanced practical time series analysis I have seen.” (David J. Hand, Past-President Royal Statistical Society)
This volume offers a comprehensive survey and a close analysis of efforts to develop actionable climate information in support of vital decisions for climate adaptation, risk management and policy. Arising from submissions and discussion at the 2011 Open Science Conference (OSC) of the World Climate Research Program (WCRP), the book addresses research and intellectual challenges which span the full range of Program activities.
This three-volume set presents entries and primary sources that will impress on readers that what we do—or don't do—today regarding climate change will dramatically influence what life on this planet will be like for untold numbers of generations. How are the behaviors of birds, butterflies, and other migratory animals connected to climate change? What does the term "thermal inertia" mean, and what does this geophysical effect have on predicting what the planet's future will be like? What is the context for the effects we are seeing on various forms of animal life, from migrating birds to polar bears to mosquitoes that transmit Zika and other diseases? Climate Change: An Encyclopedia of Science, Society, and Solutions combines entries describing Earth's variable climatic history, references to scientific literature, weather record data, and selected primary documents to present readers with a comprehensive account of global warming's effects worldwide. By examining verifiable, quantitative information such as the frequency and intensity of hurricanes and changes in the hydrological cycle, as well as clear patterns and trends of alternating droughts and deluges and wildfires, melting ice, and rising seas, readers will be able to understand why scientists are so concerned about the future of our climate. Researchers will benefit from detailed explanations of scientific topics such as thermal inertia, feedbacks, and tipping points; and receive invaluable context on the role of energy use in climate change, including automobiles and air travel. Readers will learn about the role of China in the current global climate and in the future; the widespread effects of climate change on agriculture; and how indigenous peoples' lives are being impacted, from drought and the Navajos to hunters' lives in the Arctic. The work concludes with thought-provoking debates regarding potential solutions, from wind power and solar power to geo-engineering.