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Books on the topic 'Soil physical and chemical properties'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 September 2023

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1

Rourke, R. V. Chemical and physical properties of the Danforth, Elliottsville, Peacham and Penquis soil map units. Orono, Me: Department of applied Ecology and Environmental Sciences, University of Maine, 1997.

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2

Rourke, R. V. Chemical and physical properties of the Mapleton, Monson, Saddleback, and Sisk soil map units. Orono, Me: Department of applied Ecology and Environmental Sciences, University of Maine, 1998.

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3

Rourke, R. V. Chemical and physical properties of the Mapleton, Monson, Saddleback, and Sisk soil map units. Orono, Me: Dept. of Applied Ecology and Environmental Sciences, University of Maine, 1998.

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4

Andrén, Olof. Spatial variation of soil physical and chemical properties in an arable field with high clay content. Uppsala: Sveriges lantbruksuniversitet, Institutionen för ekologi och miljövård, 1990.

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5

Rourke, R. V. Chemical and physical properties of the Aurelie, Burnham, Easton, Lille, Linneus, Monadnock, Nicholville, and Tunbridge soil map units. Orono, Me: Dept. of Plant and Soil Sciences, University of Maine, 1990.

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6

1953-, Naeth Mary Anne, and Alberta. Reclamation Research Technical Advisory Committee, eds. Soil physical properties in reclamation. Edmonton, Alta: Alberta Land Conservation and Reclamation Council, Reclamation Research Technical Advisory Committee, 1991.

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7

Naeth, M. A. Soil physical properties in reclamation. S.l: s.n, 1991.

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8

I, Colbeck, ed. Physical and chemical properties of aerosols. London: Blackie Academic & Professional, 1998.

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9

Poling, Bruce E. Physical and chemical data. New York: McGraw-Hill, 2008.

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10

Fischer, G., ed. Physical and Chemical Properties of the Air. Berlin/Heidelberg: Springer-Verlag, 1988. http://dx.doi.org/10.1007/b31154.

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11

Nazarov, Vyacheslav, Roman Sandu, and Dmitriy Makarenkov. Technique and technology of combined processing of solid waste. ru: INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/996365.

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The educational manual provides information about industrial and domestic waste. The properties of the lithosphere and the soil components. The estimation of soil pollution by industrial and household waste. The peculiarities of classification of wastes and provides criteria for determining risk. Describe the General pattern of the combined methods of processing that use mechanical, physical, thermal and biothermal recycling processes. In detail the construction described granulating equipment, methods of intensification of processes, process flow sheets and engineering calculation methods. Special attention is given to the thermal methods of waste treatment, process lines, constructions of furnaces and reactors. On the basis of the system approach with use of data of environmental monitoring are considered the methodology for selecting the most available technology. Meets the requirements of Federal state educational standards of higher education of the last generation. Intended for independent work of undergraduates majoring in 20.04.01 "Technospheric safety" (master level), 20.03.01 "Technosphere safety" (bachelor level), 18.03.01 "Chemical technology" 18.03.02 "Energy and resource saving processes in chemical technology, petrochemistry and biotechnology". Can be useful for engineers and technicians of chemical industry and related industries.
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12

McCarty, Lambert B., Lewis Ray Hubbard,, and Virgil Quisenberry. Applied Soil Physical Properties, Drainage, and Irrigation Strategies. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-24226-2.

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13

L, Monnerie, Suter U. 1935-, and Adolf Douglas Brian, eds. Atomistic modeling of physical properties. Berlin: Springer-Verlag, 1994.

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14

Processing and physical/chemical properties of tropical products. Pfaffenweiler: Centaurus-Verlagsgesellschaft, 1986.

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15

Landrum, John Thomas. Carotenoids: Physical, chemical, and biological functions and properties. Boca Raton: CRC Press, 2010.

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16

Dence, Joseph B. Intermediate physical chemistry: Stationary properties of chemical systems. New York: Wiley, 1987.

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17

Thomas, Landrum John, ed. Carotenoids: Physical, chemical, and biological functions and properties. Boca Raton: Taylor & Francis, 2010.

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18

Thomas, Landrum John, ed. Carotenoids: Physical, chemical, and biological functions and properties. Boca Raton: Taylor & Francis, 2010.

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19

Wallace, Arthur, 1919 Jan. 4- and Terry Richard E. 1949-, eds. Handbook of soil conditioners: Substances that enhance the physical properties of soil. New York: Marcel Dekker, 1998.

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20

J, Wierenga P., U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Engineering., University of Arizona. Dept. of Soil and Water Science., and New Mexico State University, eds. Soil physical properties at the Las Cruces trench site. Washington, DC: Division of Engineering, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1989.

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21

Page-Dumroese, Deborah S. Soil chemical properties of raised planting beds in a northern Idaho forest. [Ogden, Utah]: U.S. Dept. of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station, 1989.

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22

Kinetics of soil chemical processes. San Diego: Academic Press, 1989.

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23

Liao, Xiangbiao. Engineered morphologic material structures: Physical/chemical properties and applications. [New York, N.Y.?]: [publisher not identified], 2019.

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24

Toshihiro, Arai, ed. Mesoscopic materials and clusters: Their physical and chemical properties. [Tokyo]: Kodansha, 1999.

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25

Thermal Insulation Manufacturers Association. Nomenclature Committee., ed. Man-made vitreous fibers: Nomenclature, chemical, and physical properties. [Stamford, Conn.?]: TIMA Inc., 1993.

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26

Thermal Insulation Manufacturers Association. Nomenclature Committee., ed. Man-made vitreous fibers: Nomenclature, chemical, and physical properties. Stamford, CT: The Committee, 1991.

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27

te, Nijenhuis K., Mijs W. J, and Polymer Networks Group International Conference., eds. Chemical and physical networks: Formation and control of properties. Chichester: Wiley, 1998.

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28

Y, Arai, Sako T, and Takebayashi Y, eds. Supercritical fluids: Molecular interactions, physical properties, and new applications. Berlin: Springer, 2002.

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29

Pereira, Paulo, Jorge Mataix-Solera, Xavier Úbeda, Guillermo Rein, and Artemi Cerdà, eds. Fire Effects on Soil Properties. CSIRO Publishing, 2019. http://dx.doi.org/10.1071/9781486308149.

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Wildland fires are occurring more frequently and affecting more of Earth's surface than ever before. These fires affect the properties of soils and the processes by which they form, but the nature of these impacts has not been well understood. Given that healthy soil is necessary to sustain biodiversity, ecosystems and agriculture, the impact of fire on soil is a vital field of research. Fire Effects on Soil Properties brings together current research on the effects of fire on the physical, biological and chemical properties of soil. Written by over 60 international experts in the field, it includes examples from fire-prone areas across the world, dealing with ash, meso and macrofauna, smouldering fires, recurrent fires and management of fire-affected soils. It also describes current best practice methodologies for research and monitoring of fire effects and new methodologies for future research. This is the first time information on this topic has been presented in a single volume and the book will be an important reference for students, practitioners, managers and academics interested in the effects of fire on ecosystems, including soil scientists, geologists, forestry researchers and environmentalists.
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30

Naumov, V. D., N. L. Kamennykh, A. M. Polyakov, and K. A. Shmakova. Laboratory workshop on soil science. Publishing house of the Russian state agrarian University UN-TA im. K. A. Timiryazeva, 2022. http://dx.doi.org/10.26897/978-5-9675-1935-2-2022-165.

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The textbook describes the methodology for preparing soil samples for analysis, as well as methods for studying the physical, chemical and physico-chemical properties of soils during a laboratory workshop on soil science.
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31

Kirchman, David L. The physical-chemical environment of microbes. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0003.

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Many physical-chemical properties affecting microbes are familiar to ecologists examining large organisms in our visible world. This chapter starts by reviewing the basics of these properties, such as the importance of water for microbes in soils and temperature in all environments. Another important property, pH, has direct effects on organisms and indirect effects via how hydrogen ions determine the chemical form of key molecules and compounds in nature. Oxygen content is also critical, as it is essential to the survival of all but a few eukaryotes. Light is used as an energy source by phototrophs, but it can have deleterious effects on microbes. In addition to these familiar factors, the small size of microbes sets limits on their physical world. Microbes are said to live in a “low Reynolds number environment”. When the Reynolds number is smaller than about one, viscous forces dominate over inertial forces. For a macroscopic organism like us, moving in a low Reynolds number environment would seem like swimming in molasses. Microbes in both aquatic and terrestrial habitats live in a low Reynolds number world, one of many similarities between the two environments at the microbial scale. Most notably, even soil microbes live in an aqueous world, albeit a thin film of water on soil particles. But the soil environment is much more heterogeneous than water, with profound consequences for biogeochemical processes and interactions among microbes. The chapter ends with a discussion of how the physical-chemical environment of microbes in biofilms is quite different from that of free-living organisms.
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32

Australian Soil Fertility Manual. CSIRO Publishing, 2006. http://dx.doi.org/10.1071/9780643100725.

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The Australian Soil Fertility Manual is a trusted guide to the safe use and handling of fertilizers. It describes the types of agricultural soils, how they are classified and the interaction of soil, water and nutrients. It also provides an insight into how plants utilise nutrients and the role that individual nutrients play in the process of plant growth. This edition has been revised to reflect an increased emphasis on the environmental fate of nutrients and appropriate management strategies. It also has additional information on soil physical, chemical, and biological properties and discussions on the use of lime, dolomite and gypsum. New content covers liming effectiveness, nitrogen water use efficiency, regulations for handling and using fertilizers, storage and transport of security sensitive ammonium nitrate, budgeting for profitable nitrogen use and best management practice for nitrogen and phosphorus fertilizers. The chapters on potassium; calcium, magnesium and sulfur; plant nutrients and the environment; and heavy metal in fertilizers and agriculture have all been extensively revised and rewritten. This important work will be an essential text for fertilizer dealers, extension workers, consultants, teachers, farmers, horticulturists, graziers and others concerned with the profitable and environmentally safe use of plant nutrients.
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33

Sinclair, Alexander Thompson. Changes on Chemical and Physical Properties of Flour from Wheat Grown on the Black and Gray Soils of Alberta. Creative Media Partners, LLC, 2021.

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34

McKenzie, Neil, David Jacquier, Ray Isbell, and Katharine Brown. Australian Soils and Landscapes. CSIRO Publishing, 2004. http://dx.doi.org/10.1071/9780643100732.

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This essential reference provides an introduction to the remarkable soils and landscapes of Australia. It reveals their great diversity and explains why an understanding of soil properties and landscape processes should guide our use of the land. Using striking photographs of characteristic landscapes, it begins by describing the basic properties of soils and how Australia's distinctive soils and landscapes have co-evolved. We gain a greater understanding of why particular soils occur at certain locations and how soil variation can influence landscape processes, agricultural productivity and ecosystem function. The book explains the impact of various forms of land use and the changes they can bring about in soil. This is followed by an invaluable compendium that describes and illustrates over 100 of the more important and widespread soils of Australia, along with their associated landscapes. There is a brief account of each soil's environment, usage and qualities as well as details on chemical and physical properties so we can make more informed decisions about appropriate land-use. Australian Soils and Landscapes will be a valuable resource for farmers, natural resource managers, soil and environmental scientists, students and anyone with an interest in Australia's unique environment.
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35

Hazelton, Pam, and Brian Murphy. Understanding Soils in Urban Environments. CSIRO Publishing, 2021. http://dx.doi.org/10.1071/9781486314027.

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With an ever-increasing proportion of the world’s population living in cities, soil properties such as salinity, acidity, water retention, erosion and pollution are becoming more significant in urban areas. While these are known issues for agriculture and forestry, as urban development increases, it is essential to recognise the potential of soil properties to create problems for the environment as well as structural concerns for buildings and other engineering works. Understanding Soils in Urban Environments explains how urban soils develop, change and erode. It describes their physical and chemical properties with a focus on specific soil problems that cause environmental damage, such as acid sulfate soils, and also affect the integrity of engineering structural works. This fully revised second edition addresses contemporary issues, including an increase in the use of green roofs and urban green space as well as manufactured soils in a variety of urban environments. Understanding Soils in Urban Environments provides a concise introduction to all aspects of soils in urban environments and will be extremely useful to students in a wide range of disciplines, from soil science and urban forestry and horticulture, to planning, engineering, construction and land remediation, as well as to engineers, builders, landscape architects, ecologists, planners and developers.
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36

Hazelton, Pam, and Brian Murphy. Understanding Soils in Urban Environments. CSIRO Publishing, 2011. http://dx.doi.org/10.1071/9780643101432.

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Soil properties such as water retention, salinity and acidity are not just issues for agriculture and forestry. They are equally as significant in creating environmental and structural problems for buildings and other engineering works. As an increasing proportion of the world's population is living in cities, and building and related infrastructure development continues, these problems assume ever-greater importance. In addition, existing works contribute to urban soil erosion and pollution as well as increased levels of urban runoff. Understanding Soils in Urban Environments explains how urban soils develop, change and erode. It describes their physical and chemical properties and focuses on specific soil problems, such as acid sulfate soils, that can cause environmental concern and also affect engineering works. It also addresses contemporary issues such as green roofs, urban green space and the man-made urban soils that plants may need to thrive in. It provides a concise introduction to all aspects of soils in urban environments and will be extremely useful to students in a wide range of disciplines, from soil science and urban forestry and horticulture, to planning, engineering, construction and land remediation, as well as to engineers, builders, landscape architects, ecologists, planners and developers.
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37

Watson. Soil Chemical Properties. Oryson Press, 2023.

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38

Watson. Soil Chemical Properties. Oryson Press, 2023.

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39

White, Robert E. Understanding Vineyard Soils. Oxford University Press, 2015. http://dx.doi.org/10.1093/oso/9780199342068.001.0001.

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The first edition of Understanding Vineyard Soils has been praised for its comprehensive coverage of soil topics relevant to viticulture. However, the industry is dynamic--new developments are occurring, especially with respect to measuring soil variability, managing soil water, possible effects of climate change, rootstock breeding and selection, monitoring sustainability, and improving grape quality and the "typicity" of wines. All this is embodied in an increased focus on the terroir or "sense of place" of vineyard sites, with greater emphasis being placed on wine quality relative to quantity in an increasingly competitive world market. The promotion of organic and biodynamic practices has raised a general awareness of "soil health", which is often associated with a soil's biology, but which to be properly assessed must be focused on a soil's physical, chemical, and biological properties. This edition of White's influential book presents the latest updates on these and other developments in soil management in vineyards. With a minimum of scientific jargon, Understanding Vineyard Soils explains the interaction between soils on a variety of parent materials around the world and grapevine growth and wine typicity. The essential chemical and physical processes involving nutrients, water, oxygen and carbon dioxide, moderated by the activities of soil organisms, are discussed. Methods are proposed for alleviating adverse conditions such as soil acidity, sodicity, compaction, poor drainage, and salinity. The pros and cons of organic viticulture are debated, as are the possible effects of climate change. The author explains how sustainable wine production requires winegrowers to take care of the soil and minimize their impact on the environment. This book is a practical guide for winegrowers and the lay reader who is seeking general information about soils, but who may also wish to pursue in more depth the influence of different soil types on vine performance and wine character.
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40

Physical-Chemical Properties of Foods. Elsevier, 2015. http://dx.doi.org/10.1016/c2015-0-04057-6.

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41

1933-, Sumner M. E., and Stewart B. A. 1932-, eds. Soil crusting: Chemical and physical processes. Boca Raton: Lewis Publishers, 1992.

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42

R, Okos Martin, and American Society of Agricultural Engineers., eds. Physical and chemical properties of food. St. Joseph, Mich., USA: American Society of Agricultural Engineers, 1986.

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43

Karpelenia, Jenny. Physical and Chemical Properties and Changes. Perfection Learning, 2007.

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44

(Editor), Gennadii Efremovich Zaikov, and Ryszard Kozlowski (Editor), eds. Chemical And Physical Properties Of Polymers. Nova Science Publishers, 2005.

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45

Hunt, Allen, and Markus Egli. Hydrogeology, Chemical Weathering, and Soil Formation. Wiley & Sons, Limited, John, 2021.

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46

Hunt, Allen, and Markus Egli. Hydrogeology, Chemical Weathering, and Soil Formation. American Geophysical Union, 2020.

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47

Hunt, Allen, Boris Faybishenko, and Markus Egli. Hydrogeology, Chemical Weathering, and Soil Formation. Wiley & Sons, Limited, John, 2021.

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48

Hunt, Allen, and Markus Egli. Hydrogeology, Chemical Weathering, and Soil Formation. American Geophysical Union, 2020.

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49

Wallace. Handbook of Soil Conditioners : Substances That Enhance the Physical Properties of Soil: Substances That Enhance the Physical Properties of Soil. Taylor & Francis Group, 2020.

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50

Wallace. Handbook of Soil Conditioners : Substances That Enhance the Physical Properties of Soil: Substances That Enhance the Physical Properties of Soil. Taylor & Francis Group, 2020.

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