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Traditionally the study of chemical principles as they relate to soil has been limited to the field of agronomics. Soil and Water Chemistry: An Integrative Approach, stands alone because it balances agricultural and environmental perspectives in its analysis of the chemical properties and processes that affect organic and inorganic soil substances. Written for soil science practitioners, researchers, and students, this book provides a comprehensive treatment of soil composition and reactions. Topics include: clay mineralogy, soil organic matter, mineral weathering and stability, ion speciation, solubility, ion exchange, adsorption, oxidation-reduction, acidity, alkalinity, and salinity. Each chapter concludes with numerous exercises that emphasize concepts and have practical, real-world applications.
The second edition of a bestseller, Soil and Water Chemistry: An Integrative Approach maintains the balanced perspective that made the first edition a hugely popular textbook. The second edition includes new figures and tables, new chapters, and expanded exercises in each chapter. It covers topics including soil chemical environment, soil minerals, soil organic matter, cation exchange, oxidation-reduction, mineral weathering and solubility, surface chemistry and adsorption reactions, acidity and salinity in soil materials, and chemical thermodynamics applied to soil systems. See What’s New in the Second Edition: Extensive section that details the sources, speciation, and the general behavior of elements in soils Expanded section on crystal structure, updated phyllosillcates classifications scheme, inclusion of sepiolite-palygorskite group, and expanded x-ray diffraction section Discussion of surface runoff losses of phosphorus from soil and description of the inductivity coupled argon plasma-mass spectroscopy (ICP-MS) analytical technique for determining elemental concentrations in soil solution Coverage of the influence of redox processes on the soil chemistry of nonelectroactive elements Description of the electrokinetic phenomenon and investigation of the influence of temperature on adsorption Expanded discussion on the application of chemical thermodynamics to soil systems A solutions manual is available upon qualifying course adoption. Still one of the only texts on this subject, this book provides a comprehensive, modern, and balanced coverage of the chemical and mineralogical characteristics of soils and their chemical processes. It contains more information and topic coverage than required for an average, single-semester course. This extensive coverage is by design, giving you the latitude to pick your own essential topics while providing additional information or a more advanced treatment when needed. Figures and tables make the information accessible and each problem has been tested and is relevant and doable, but asks more of students than to simply generate a number. This format allows students to understand the concepts and recognize that their computations have physical meaning.
The second edition of a bestseller, Soil and Water Chemistry: An Integrative Approach maintains the balanced perspective that made the first edition a hugely popular textbook. The second edition includes new figures and tables, new chapters, and expanded exercises in each chapter. It covers topics including soil chemical environment, soil minerals, soil organic matter, cation exchange, oxidation-reduction, mineral weathering and solubility, surface chemistry and adsorption reactions, acidity and salinity in soil materials, and chemical thermodynamics applied to soil systems. See What’s New in the Second Edition: Extensive section that details the sources, speciation, and the general behavior of elements in soils Expanded section on crystal structure, updated phyllosillcates classifications scheme, inclusion of sepiolite-palygorskite group, and expanded x-ray diffraction section Discussion of surface runoff losses of phosphorus from soil and description of the inductivity coupled argon plasma-mass spectroscopy (ICP-MS) analytical technique for determining elemental concentrations in soil solution Coverage of the influence of redox processes on the soil chemistry of nonelectroactive elements Description of the electrokinetic phenomenon and investigation of the influence of temperature on adsorption Expanded discussion on the application of chemical thermodynamics to soil systems A solutions manual is available upon qualifying course adoption. Still one of the only texts on this subject, this book provides a comprehensive, modern, and balanced coverage of the chemical and mineralogical characteristics of soils and their chemical processes. It contains more information and topic coverage than required for an average, single-semester course. This extensive coverage is by design, giving you the latitude to pick your own essential topics while providing additional information or a more advanced treatment when needed. Figures and tables make the information accessible and each problem has been tested and is relevant and doable, but asks more of students than to simply generate a number. This format allows students to understand the concepts and recognize that their computations have physical meaning.
Learn the secrets of soil chemistry and its role in agriculture and the environment. Examine the fundamental laws of soil chemistry, how they affect dissolution, cation and anion exchange, and other reactions. Explore how water can form water-bridges and hydrogen bonding, the most common forces in adsorption, chelation, and more. Discover how electrical charges develop in soils creating electrochemical potentials forcing ions to move into the plant body through barriers such as root membranes, nourishing crops and plants. You can do all this and more with Principles of Soil Chemistry, Fourth Edition. Since the first edition published in 1982, this resource has made a name for itself as a textbook for upper level undergraduates and as a handy reference for professionals and scientists. This fourth edition reexamines the entire reach of soil chemistry while maintaining the clear, concise style that made previous editions so user-friendly. By completely revising, updating, and incorporating a decade’s worth of new information, author Kim Tan has made this edition an entirely new and better book. See what's new in the Fourth Edition Reexamines atoms as the smallest particle that will enter into chemical reactions by probing new advances testifying the presence of subatomic particles and concepts such as string theory Underscores oxygen as the key element in soil air and atmosphere for life on earth Reevaluates the idea of transformation of orthoclase into albite by simple cation exchange reactions as misleading and bending scientific concepts of ion exchange over the limit of truth Examines the role of fertilizers, sulfur, pyrite, acid rain, and nitrogen fixation in soil acidity, underscoring the controversial effect of nitrification on increasing soil acidity over time Addresses the old and new approaches to humic acids by comparing the traditional operational concept against the currently proposed supramolecular and pseudomicellar concept Proposes soil organics, such as nucleic acids of DNA and others, to also adsorb cation ions held as diffusive ion clouds around the polymers Tan explains, in easy and simple language, the chemical make-up of the four soil constituents, their chemical reactions and interactions in soils as governed by basic chemical laws, and their importance in agriculture, industry, and the environment. He differentiates soil chemistry from geochemistry and physical chemistry. Containing more than 200 equations, 123 figures, and 38 tables, this popular text and resource supplies a comprehensive treatment of soil chemistry that builds a foundation for work in environmental pollution, organic and inorganic soil contamination, and potential ecological health and environmental health risks.
Principles of Soil and Plant Water Relations combines biology and physics to show how water moves through the soil-plant-atmosphere continuum. This text explores the instrumentation and the methods used to measure the status of water in soil and plants. Principles are clearly presented with the aid of diagrams, anatomical figures, and images of instrumentation. The methods on instrumentation can be used by researchers, consultants, and the military to monitor soil degradation, including measurements of soil compaction, repellency, oxygen diffusion rate, and unsaturated hydraulic conductivity. Intended for graduate students in plant and soil science programs, this book also serves as a useful reference for agronomists, plant ecologists, and agricultural engineers. * Principles are presented in an easy-to-understand style * Heavily illustrated with more than 200 figures; diagrams are professionally drawn * Anatomical figures show root, stem, leaf, and stomata * Figures of instruments show how they work * Book is carefully referenced, giving sources for all information * Struggles and accomplishments of scientists who developed the theories are given in short biographies.
Comprehensive, up-to-date coverage of the basics of soil chemistry Although only a meter in depth over the earth's surface, soil is key to sustaining life-affecting air and water quality, the growth of plants and crops, and the health of the entire planet. The complex interplay among organic and inorganic solids, air, water, microorganisms, and plant roots in soil is the subject of Soil Chemistry, a reference pivotal to understanding soil processes and problems. Thoroughly reorganized for ease of use, this updated Third Edition of Soil Chemistry summarizes the important research and fundamental knowledge in the field in a single, readily usable text, including: Soil-ion interactions Biogeological cycles and pollution Water and soil solutions Oxidation and reduction Inorganic solid phase and organic matter in soil Weathering and soil development Cation retention (exchange) Anion and molecular retention Acid and salt-affected soils New to the Third Edition is an enhanced emphasis on soil solution chemistry and expanded coverage of phosphate chemistry and the chemical principles of the aqueous phase. At the same time, the book has retained the clear examination of the fundamentals of the science of soil that has distinguished earlier editions. Complete with SI units and end-of-chapter study questions, Soil Chemistry is an excellent introductory resource for students studying this crucial topic.
The fourth edition of Soil Microbiology, Ecology and Biochemistry updates this widely used reference as the study and understanding of soil biota, their function, and the dynamics of soil organic matter has been revolutionized by molecular and instrumental techniques, and information technology. Knowledge of soil microbiology, ecology and biochemistry is central to our understanding of organisms and their processes and interactions with their environment. In a time of great global change and increased emphasis on biodiversity and food security, soil microbiology and ecology has become an increasingly important topic. Revised by a group of world-renowned authors in many institutions and disciplines, this work relates the breakthroughs in knowledge in this important field to its history as well as future applications. The new edition provides readable, practical, impactful information for its many applied and fundamental disciplines. Professionals turn to this text as a reference for fundamental knowledge in their field or to inform management practices. New section on "Methods in Studying Soil Organic Matter Formation and Nutrient Dynamics" to balance the two successful chapters on microbial and physiological methodology Includes expanded information on soil interactions with organisms involved in human and plant disease Improved readability and integration for an ever-widening audience in his field Integrated concepts related to soil biota, diversity, and function allow readers in multiple disciplines to understand the complex soil biota and their function

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