The Loma Prieta, California, Earthquake of October 17, 1989
The Loma Prieta, California, Earthquake of October 17, 1989

Author: Stuart Rojstaczer

Publisher:

Published: 1994-06-01

Total Pages: 64

ISBN-13: 9780756701765

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Seismic events have long been known to cause changes in the level of oceans, streams, lakes, and the water table. The hydrologic data sets collected from the Loma Prieta earthquake of Oct. 17, 1989 have enough detail to enable hypotheses on the causes for such changes to be tested. These papers document changes in ocean level, stream morphology and flow, water table height, and groundwater flow rates in response to the earthquake. These papers deal strictly with postevent hydrologic changes, which appear to be the result of landslides, the static displacements induced by the earthquake, and changes in the permeability of the near surface. Illustrated.

Earthquake Research and Analysis
Earthquake Research and Analysis

Author: Sebastiano D'Amico

Publisher: BoD – Books on Demand

Published: 2012-02-08

Total Pages: 420

ISBN-13: 9533079916

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This book is devoted to different aspects of earthquake research. Depending on their magnitude and the placement of the hypocenter, earthquakes have the potential to be very destructive. Given that they can cause significant losses and deaths, it is really important to understand the process and the physics of this phenomenon. This book does not focus on a unique problem in earthquake processes, but spans studies on historical earthquakes and seismology in different tectonic environments, to more applied studies on earthquake geology.

Groundwater in Geologic Processes
Groundwater in Geologic Processes

Author: Steven E. Ingebritsen

Publisher: Cambridge University Press

Published: 2006-05-04

Total Pages:

ISBN-13: 1009247492

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The 2006 second edition of this well received and widely adopted textbook has been extensively revised to provide a more comprehensive treatment of hydromechanics (the coupling of groundwater flow and deformation), to incorporate findings from the substantial body of research published since the first edition, and to include three new chapters on compaction and diagenesis, metamorphism, and subsea hydrogeology. The opening section develops basic theory of groundwater motion, fluid-solid mechanical interaction, solute transport, and heat transport. The second section applies flow, hydromechanics, and transport theory in a generalized geologic context, and focuses on particular geologic processes and environments. A systematic presentation of theory and application coupled with problem sets to conclude each chapter make this text ideal for use by advanced undergraduate and graduate-level hydrogeologists and geologists. It also serves as an invaluable reference for professionals in the field.

Ancient Water Technologies
Ancient Water Technologies

Author: L. Mays

Publisher: Springer Science & Business Media

Published: 2010-05-19

Total Pages: 286

ISBN-13: 9048186323

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There is no more fundamental resource than water. The basis of all life, water is fast becoming a key issue in today’s world, as well as a source of conflict. This fascinating book, which sets out many of the ingenious methods by which ancient societies gathered, transported and stored water, is a timely publication as overextraction and profligacy threaten the existence of aquifers and watercourses that have supplied our needs for millennia. It provides an overview of the water technologies developed by a number of ancient civilizations, from those of Mesopotamia and the Indus valley to later societies such as the Mycenaeans, Minoans, Persians, and the ancient Egyptians. Of course, no book on ancient water technologies would be complete without discussing the engineering feats of the Romans and Greeks, yet as well as covering these key civilizations, it also examines how ancient American societies from the Hohokams to the Mayans and Incas husbanded their water supplies. This unusually wide-ranging text could offer today’s parched world some solutions to the impending crisis in our water supply. "This book provides valuable insights into the water technologies developed in ancient civilizations which are the underpinning of modern achievements in water engineering and management practices. It is the best proof that "the past is the key for the future." Andreas N. Angelakis, Hellenic Water Supply and Sewerage Systems Association, Greece "This book makes a fundamental contribution to what will become the most important challenge of our civilization facing the global crisis: the problem of water. Ancient Water Technologies provides a complete panorama of how ancient societies confronted themselves with the management of water. The role of this volume is to provide, for the first time on this issue, an extensive historical and scientific reconstruction and an indication of how traditional knowledge may be employed to ensure a sustainable future for all." Pietro Laureano, UNESCO expert for ecosystems at risk, Director of IPOGEA-Institute of Traditional Knowledge, Italy

Frontiers in Geofluids
Frontiers in Geofluids

Author: Bruce W. D. Yardley

Publisher: John Wiley & Sons

Published: 2011-03-10

Total Pages: 639

ISBN-13: 1444394894

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Frontiers in Geofluids is a collection of invited papers chosen to highlight recent developments in our understanding of geological fluids in different parts of the Earth, and published to mark the first ten years of publication of the journal Geofluids. The scope of the volume ranges from the fundamental properties of fluids and the phase relationships of fluids encountered in nature, to case studies of the role of fluids in natural processes. New developments in analytical and theoretical approaches to understanding fluid compositions, fluid properties, and geological fluid dynamics across a wide range of environments are included. A recurrent theme of research published in Geofluids is the way in which similar approaches can be applied to geological fluids in very different settings and this is reflected in the diverse range of applications of fluid studies that are included here. They include deep groundwater flow, hydrocarbons in faulted sedimentary basins, hydrothermal ores, and multiphase flow in mid-ocean ridge systems. Other topics covered are geothermal waters, crustal metamorphism, and fluids in magmatic systems. The book will be of great interest to researchers and students interested in crustal and mantle fluids of all sorts.