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The core of this book is based on the unique cooperation between earth scientists and civil engineers working in the field of strong earthquakes in the Vrancea region of Rumania and the capital city Bucharest. It goes on to review the results of deep seismic tomography from mantel pumes, deep lithospehric properties from Russian nuclear explosion data and high -resolution imaging in seismics. Finally, the third part of this book focusses on the effect of tectonics on plate motions and civilisation.
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Mining the Earth's Heat: Hot Dry Rock Geothermal Energy describes the work carried out by the Los Alamos National Laboratory to turn an idealistic concept - that of drawing useful amounts of energy from the vast underground store of hot rock at reachable depths - into a practical reality. This book provides comprehensive documentation of the over two decades of experiments carried out at the test site at Fenton Hill, New Mexico, where the feasibility of accessing and extracting this vast natural resource was finally demonstrated. It also discusses the numerous technical, administrative, and financial hurdles that had to be overcome along the way. This publication will no doubt prove invaluable to researchers around the world as they strive to move this now-proven technology toward commercial viability. In addition, it is a valuable source of relevant information for anyone interested in the world energy outlook for the 21st century and beyond.
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Arc-continent collision has been one of the important tectonic processes in the formation of mountain belts throughout geological time, and it continues to be so today along tectonically active plate boundaries such as those in the SW Pacific or the Caribbean. Arc-continent collision is thought to have been one of the most important process involved in the growth of the continental crust over geological time, and may also play an important role in its recycling back into the mantle via subduction. Understanding the geological processes that take place during arc-continent collision is therefore of importance for our understanding of how collisional orogens evolve and how the continental crust grows or is destroyed. Furthermore, zones of arc-continent collision are producers of much of the worlds primary economic wealth in the form of minerals, so understanding the processes that take place during these tectonic events is of importance in modeling how this mineral wealth is formed and preserved. This book brings together seventeen papers that are dedicated to the investigation of the tectonic processes that take place during arc-continent collision. It is divided into four sections that deal firstly with the main players involved in any arc-continent collision; the continental margin, the subduction zone, and finally the volcanic arc and its mineral deposits. The second section presents eight examples of arc-continent collisions that range from being currently active through to Palaeoproterozoic in age. The third section contains two papers, one that deals with the obduction of large-slab ophiolites and a second that presents a wide range of physical models of arc-continent collision. The fourth section brings everything that comes before together into a discussion of the processes of arc-continent collision.
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L'ecologia del paesaggio biologico-integrata, o meglio Bionomia del Paesaggio , si propone come un atto di rifondazione della disciplina iniziato dall'Autore una dozzina di anni fa, con l'appoggio di Richard Forman, basato sul riconoscimento del paesaggio come specifico livello dell'organizzazione della vita sulla Terra. A scala territoriale, in un determinato ambito geografico, il paesaggio si definisce come integrazione di un insieme di comunità vegetali, animali ed umane e del loro sistema di ecosistemi naturali, seminaturali e antropico-culturali in una certa configurazione spaziale , cioè come sistema iper-complesso che costituisce una entità vivente: non un insieme incoerente, quindi, di aspetti e di tematiche separate (acqua, aria, suolo, specie, inquinamenti) tra cui si possano trovare delle interrelazioni! Ciò porta, inevitabilmente, notevoli cambiamenti nelle modalità di valutare e gestire l'ambiente. Possiamo, infatti, riconoscere delle strutture e delle funzioni proprie di ogni paesaggio, ossia dei comportamenti peculiari che vanno oltre le classiche relazioni fra le componenti perché dovuti a leggi sistemiche. Si può così parlare di uno stato di salute e di una serie di sindromi (o patologie) del paesaggio. Questo fatto è assai rilevante, perché si è dimostrato che le alterazioni patologiche di un paesaggio, o di una sua parte, possono influire sulla salute umana, anche in assenza di inquinamenti! Prestiamo attenzione al fatto che si può intervenire sul territorio con le migliori intenzioni causando invece un danno! Ne consegue la necessità di studiare le unità di paesaggio con un metodo clinico-diagnostico e di considerare gli ecologi come medici dei sistemi ecologici, cioè ecoiatri .
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Soil is the Earth's living skin. It provides anchorage for roots, holds water long enough for plants to make use of it and the nutrients that sustain life - otherwise the Earth would be as barren as Mars. It is home to myriad micro-organisms and armies of microscopic animals as well as the familiar earthworm that accomplish biochemical transformations from fixing atmospheric nitrogen to recycling wastes; it receives and process all fresh water, provides the foundations for our built environment; and comprises the biggest global carbon store that we know how to manage. This book is about the best soil in the world - the black earth or chernozem: how it is being degraded by farming and how it may be farmed sustainably. Industrialisation of farming has laid bare contradictions between the unforgiving laws of ecology and economics. Soil organic matter is the fuel that powers soil systems and the cement that holds the soil together - and in place - but agriculture is burning it up faster than it is being formed: even the chernozem cannot long survive this treatment. Here is the evidence for this trend and, based on long-term field experiments, ecological principles for sustainable agriculture that can reverse the trend and, at the same time, feed the world. Unlike other volumes in the series, this is not an edited collection of scientific papers. The authors have chosen the classical monograph to be near to the reader from beginning to end - to convey their anxiety about the state of the land and their optimism about the possibility of retrieving the situation by changing the social and political approach to the land so as to provide the necessary incentives for sustainable land use and management. About the authors Igori Krupenikov is soil scientist, Emeritus Professor, honoured member of the Moldovan Academy of Sciences and State Laureate, working at the Nicolai Dimo Institute of Soil Science and Agrochemistry in Chisinau. Boris Boincean is agronomist, long-time Director and continuing Head of the Department of Sustainable Farming Systems of the Selectia Research Institute for Field Crops and also Professor at the Aleco Russo State University at Balti, in Moldova. David Dent is former Director of ISRIC - World Soil Information in Wageningen, awarded the Australian Centenary Medallion for scientific leadership of the National Action Plan for Salinity and Water Quality, and long-time teacher and researcher at the School of Environmental Sciences, University of East Anglia.
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The long-term effects of the Chernobyl incident on the environment are still becoming apparent, twenty years after the event. This book, written by two researchers with frontline experience in this field, provides a detailed review of these over a wide range of ecosystems. It also discusses the responses and countermeasures utilised to combat the effects of the accident, as well as considering the health, social, psychological and economic impacts on the human population. Chernobyl - Catastrophe and Consequences provides a comprehensive assessment of the Chernobyl accident and its long-term consequences draws on the most recent measurements of contamination in the terrestrial and aquatic food chains discusses the sociological consequences of such disasters in detail This book adds valuable weight to the debate about the environmental cost of nuclear power and the issue of nuclear safety.
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Geological structures are three dimensional, yet are typically represented by, and - terpreted from, outcrop maps and structure contour maps, both of which are curved two-dimensional surfaces. Maps plus serial sections, called 2½-D, provide a closer approach to three dimensionality. Computer technology now makes it possible for geological interpretations to be developed from the beginning in a fully three dim- sional environment. Fully 3-D geological models allow significantly better interpre- tions and interpretations that are much easier to share with other geologists and with the general public. This book provides an overview of techniques for constructing structural interpretations in 2-D, 2½-D and 3-D environments; for interpolating - tween and extrapolating beyond the control points; and for validating the final int- pretation. The underlying philosophy is that structures are three-dimensional solid bodies and that data from throughout the structure, whether in 2-D or 3-D format, should be integrated into an internally consistent 3-D interpretation. It is assumed that most users of this book will do their work on a computer. C- sequently, the book provides quantitative structural methods and techniques that are designed for use with spreadsheets, mapping software, and three-dimensional c- puter-graphics programs. The book is also intended to provide the background for understanding what interpretive software, for example, a computer contouring p- gram, does automatically. Most techniques are presented in both a traditional format appropriate for paper, pencil, and a pocket calculator, and in quantitative format for use with spreadsheets and computer-graphics or computer-aided-design programs.
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Mechanical properties and fluid transport in rocks are intimately linked as deformation of a solid rock matrix immediately affects the pore space and permeability. The coupling of fluid circulation and deformation processes in crustal rocks results in significant complexity of the mechanical and fluid transport behavior. This often poses severe technical and economic problems for reservoir and geotechnical engineering projects involved in oil and gas production, CO2 sequestration, mining and underground waste disposal. The volume results from the 5th Euroconference on Rock Physics and Geomechanics, which was held in Potsdam, Germany in September 2004. Part I of the topical volume mainly contains contributions investigating the nucleation and evolution of crack damage in rocks, new or modified techniques to measure rock fracture toughness and a discussion of upscaling techniques relating mechanical and fluid transport behavior in rocks at different spatial scales. Part II contains contributions discussing fluid flow and transport in rocks as observed on the laboratory scale and in boreholes. The evolution of rock damage pertinent to the stability of underground excavations is studied and scaling relations of elastic properties and seismic events are discussed.
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Natural hazards events such as earthquakes or volcanic eruptions involve activation of coupled thermo-hydro-chemo-mechanical processes in rocks. The present book assembles unpublished contributions to the 7th Euro-Conference on Rock Physics and Geomechanics, held in 2007 in Erice, Italy. It presents new laboratory data, theoretical and numerical rock physics models and field observations relevant to the study of natural hazards. In particular, several papers are devoted to rock failure and explore the relationship between the competing deformation micro-mechanisms. Several others investigate shear-induced anisotropy of mechanical and/or transport properties, both in large-scale geologic objects and in laboratory samples. The remaining papers treat various aspects of rock physics and their industrial applications such as geothermics and reservoir characterization.
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Terrestrial fluids, earthquakes and volcanoes: The Hiroshi Wakita volume III is a special publication to honor Professor Hiroshi Wakita for his scientific contribution to science, which has been closely linked with one of the major objectives of this 2008 International Year for the Earth Planet. Reducing natural risks in active tectonic and volcanic environments by searching and detecting early warning hydrological and geochemical signatures related to earthquakes and volcanic eruptions has been a major life research goal for Hiroshi Wakita. This third special issue of Pure and Applied Geophysics consists of 9 original papers written by researchers from Taiwan, Italy, Turkey, Iceland, USA, Sweden, India and Spain dealing with various aspects of the role of terrestrial fluids in earthquake and volcanic processes. It also includes a list of Hiroshi Wakita's scientific publications. This volume III will be useful to students and professional researchers who are interested in the role of terrestrial fluids in earthquakes and volcanic activity.
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