Overview
- Editors:
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Susan L. Brantley
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Earth and Environmental Systems Institute, The Pennsylvania State University, University Park, USA
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James D. Kubicki
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Department of Geosciences and the Earth and Environmental Systems Institute, The Pennsylvania State University, University Park, USA
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Art F. White
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U.S. Geological Survey, Menlo Park, USA
- All practitioners of geochemistry today need a thorough understanding of kinetics, including those in academia, government, and industry
- Will have textbook potential among upper division undergraduate and graduate students. The book will also be useful as a reference tool for practicing geochemists
- focussed on water-rock interaction, which has wide applications for hyrogeochemists, soil scientists, petrologists, economic geologists, and environment geologists in academia, industry, and applied laboratories
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Table of contents (13 chapters)
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Front Matter
Pages i-xxiii
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- Susan L. Brantley, Christine F. Conrad
Pages 1-37
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- A. Liittge, R. S. Arvidson
Pages 73-107
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- Jon Chorover, Mark L. Brusseau
Pages 109-149
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- Joel Z. Bandstra, Susan L. Brantley
Pages 211-257
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- Liane G. Benning, Glenn A. Waychunas
Pages 259-333
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- Abraham Lerman, Lingling Wu
Pages 655-736
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Back Matter
Pages 737-833
About this book
Systems at the surface of the Earth are continually responding to energy inputs - rived ultimately from radiation from the Sun or from the radiogenic heat in the - terior. These energy inputs drive plate movements and erosion, exposing metastable mineral phases at the Earth’s surface. In addition, these energy ?uxes are harvested and transformed by living organisms. As long as these processes persist, chemical disequilibrium at the Earth’s surface will be perpetuated. In addition, as human populations grow, the need to produce food, extract - ter, and extract energy resources increases. These processes continually contribute to chemical disequilibrium at the Earth surface. We therefore ?nd it necessary to predict how the surface regolith will change in response to anthropogenic processes as well as long-term climatic and tectonic forcings. To address these questions, we must understand the rates at which reactions occur and the chemical feedbacks that relate these reactions across extreme temporal and spatial scales. Scientists and - gineers who work on soil fertility, nuclear waste disposal, hydrocarbon production, and contaminant and CO sequestration are among the many researchers who need 2 to understand geochemical kinetics. Fundamental questions concerning the lo- term geological, climatic and biological evolution of the planet also rely on g- kinetic information. In this book, we summarize approaches toward measuring and predicting the - netics of water-rock interactions which contribute to the processes mentioned above.
Editors and Affiliations
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Earth and Environmental Systems Institute, The Pennsylvania State University, University Park, USA
Susan L. Brantley
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Department of Geosciences and the Earth and Environmental Systems Institute, The Pennsylvania State University, University Park, USA
James D. Kubicki
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U.S. Geological Survey, Menlo Park, USA
Art F. White