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Books on the topic 'Sols – Acidité'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

A, Wood John. Bilans d'acidité des tourbières et effets des retombées acides. Ottawa, Ont: Environnement Canada, 1989.

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2

Canada. Service de l'environnement atmosphérique. Les pluies acides au Canada, rapport d'évaluation de 1997. Ottawa, Ont: Environnement Canada, 1998.

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3

R, Kennedy I. Acid soil and acid rain: The impact on the environment of nitrogen and sulphur cycling. Letchworth, Hertfordshire, England: Research Studies Press, 1986.

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4

Acid soil and acid rain. 2nd ed. Taunton, Somerset, England: Research Studies Press, 1992.

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5

Pavan, Marcos Antonio. Manejo da acidez do solo. Londrina, PR: Instituto Agronômico do Paraná, 1997.

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6

Pavan, Marcos Antonio. Lições de fertilidade do solo: PH. Londrina, PR: Instituto Agronômico do Paraná, 1997.

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7

Ananthanarayana, R. Soil acidity and liming in Karnataka. Bangalore: Dept. of Soil Science and Agricultural Chemistry, Agriculture College, G.K.V.K, 1998.

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8

Binkley, Dan, Charles T. Driscoll, H. Lee Allen, Philip Schoeneberger, and Drew McAvoy. Acidic Deposition and Forest Soils. New York, NY: Springer New York, 1989. http://dx.doi.org/10.1007/978-1-4612-3586-6.

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9

Ravi, M. V. Acidity and liming in coffee growing soils of Karnataka. Bangalore, India: Dept. of Soil Science and Agricultural Chemistry, University of Agricultural Sciences, 2000.

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10

Shamrikova, E. V. Kislotno-osnovnai︠a︡ bufernostʹ podzolistykh i bolotno-podzolistykh pochv Severo-Vostoka evropeĭskoĭ chasti Rossii. Ekaterinburg: UrO RAN, 2005.

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11

Halvorson, A. R. Soil acidity in central Washington orchards: The nature of the problem and how to manage it. Pullman, Wash: Cooperative Extension, College of Agriculture & Home Economics, Washington State University, 1985.

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12

Rihm, B. Critical Loads of acidity for forest soils and alpine lakes: Steady state mass balance method. Berne: FOEFL, 1994.

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13

International Symposium on Acid Sulphate Soils (4th 1992 Ho Chi Minh City, Vietnam). Selected papers of the Ho Chi Minh City Symposium on Acid Sulphate Soils: Ho Chi Minh City, Viet Nam, March 1992. Wageningen, The Netherlands: International Institute for Land Reclamation and Improvement, 1993.

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14

Berdén, Maria. Ion leaching and soil acidification in a forest Haplic Podzol: Effects of nitrogen application and clear-cutting. Uppsala: Swedish University of Agricultural Sciences, Dept. of Ecology and Environmental Research, 1994.

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15

Nichnadowicz, Vincent F. Mitigation of acid-producing soils: Final report. [Trenton, NJ]: The Dept., 2003.

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16

Inskeep, William P. Fate and mobility of arsenic in soils of the Madison River Basin. Bozeman, Mont: Montana University System, Water Resources Center, 1999.

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17

Lü zai tu rang--zhi wu zhong de xing wei ji zhi wu de shi ying ji zhi. Beijing: Ke xue chu ban she, 2008.

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18

Legge, Allan H. Acidic deposition and the environment: A literature overview. Calgary, Alta: Acid Deposition Research Program, 1987.

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19

Opdecamp, Luc. Effets stimulants et toxiques de l'aluminium sur la croissance des plantes cultivées dans les sols humifères acides du Burundi. Bujumbura: ISABU, 1988.

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20

Dugas, Celeste M. The effects of limestone application on nitrification in metal-contaminated and uncontaminated acidic soils. Sudbury, Ont: Laurentian University, Department of Biology, 1998.

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21

J, Wright R., Baligar V. C, and Murrmann R. P, eds. Plant-soil interactions at low pH: Proceedings of the Second International Symposium on Plant-Soil Interactions at Low pH, 24-29 June, 1990, Beckley, West Virginia, USA. Dordrecht: Kluwer Academic, 1991.

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22

International Symposium on Plant-Soil Interactions at Low pH (4th 1996 Minas Gerais, Brazil). Plant-soil interactions at low pH: Sustainable agriculture and forestry production : proceedings of the fourth International Symposium on Plant-Soil Interactions at Low pH, Belo Horizonte, Minas Gerais, Brazil, 17-24 March 1996. Campinas: Brazilian Soil Science Society, 1997.

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23

International Symposium on Plant-Soil Interactions at Low pH (3rd 1993 Brisbane, Qld.). Plant-soil interactions at low pH: Principles and management : proceedings of the Third International Symposium on Plant-Soil Interactions at Low pH, Brisbane, Queensland, Australia, 12-16 September 1993. Dordrecht: Kluwer Academic, 1995.

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24

Ohmann, L. F. Physical characteristics of study plots across a Lake States acidic deposition gradient. St. Paul, Minn: U.S. Dept. of Agriculture, Forest Service, North Central Forest Experiment Station, 1989.

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25

Palko, Jukka. Happamien sulfaattimaiden kuivatus ja kalkitus Limingan koekentällä 1984-1987. Helsinki: Vesi- ja ympäristöhallitus, 1988.

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26

Bilski, Jerzy. Zakwaszenie i zasolenie podłoża jako czynniki stresowe dla roślin. Warszawa: Państwowe Wydawn. Nauk., 1990.

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27

Rengel, Zdenko. Handbook of Soil Acidity (Books in Soils, Plants, and the Environment). CRC, 2003.

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28

Dan, Binkley, ed. Acidic deposition and forest soils: Context and case studies of the southeastern U.S. New York: Springer-Verlag, 1989.

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29

Dan, Binkley, ed. Acidic deposition and forest soils: Context and case studies of the southeastern U.S. New York: Springer-Verlag, 1988.

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30

Norton, Stephen A., S. E. Lindberg, and A. L. Page. Acidic Precipitation: Soils, Aquatic Processes, and Lake Acidification. Springer, 2012.

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31

Norton, Stephen A., S. E. Lindberg, and A. L. Page. Acidic Precipitation: Soils, Aquatic Processes, and Lake Acidification. Springer, 2013.

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32

Yang, Jian Li, Wei Fan, and Peter Ryan, eds. Mechanisms of Plant-Aluminum Interactions in Acidic Soils. Frontiers Media SA, 2019. http://dx.doi.org/10.3389/978-2-88945-909-4.

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33

Acidic Deposition and Forest Soils: Context and Case Studies of the Southeastern United States. Springer, 2012.

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34

Dan, Binkley, ed. Acidic deposition and forest soils: Context and case studies on the southeastern United States. New York: Springer-Verlag, 1988.

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35

E, Bosilovich Brian, Kardos Nicholas J, and Superfund Innovative Technology Evaluation Program (U.S.), eds. Acid extraction treatment system for treatment of metal contaminated soils. [Washington, D.C.?]: U.S. Environmental Protection Agency, Superfund Innovative Technology Evaluation, 1994.

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36

Allen, H. Lee, Philip Schoeneberger, Drew McAvoy, Dan Binkley, and Charles T. Driscoll. Acidic Deposition and Forest Soils: Context and Case Studies of the Southeastern United States (Ecological Studies). Springer, 1989.

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37

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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38

Kumari, Dr Geeta, Dr Navnit Kumar, and Dr B. Mishra, eds. Integrated Nutrient Management for Yield Sustainability in Acidic Soils. Integrated Publications, 2020. http://dx.doi.org/10.22271/int.book.18.

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39

L, Papp M., Van Remortel R. D, United States. Environmental Protection Agency. Office of Research and Development, Lockheed Engineering & Sciences Company, and NSI Technology Services, eds. Direct/delayed response project: Laboratory operations and quality assurance report for preparation of soils from the Mid-Appalachian Region of the United States. Washington, DC: U.S. Environmental Protection Agency, Office of Research and Development, 1990.

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40

Mensvoort, M. E. F. van., Dent D. L, and International Institute for Land Reclamation and Improvement., eds. Selected papers of the Ho Chi Minh City symposium on acid sulphate soils: Ho Chi Minh City, VietNam, March 1992. Wageningen: International Institute for Land Reclamation and Improvement, 1993.

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41

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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42

I, White, and Water Research Foundation of Australia., eds. Reducing acidic discharges from coastal wetlands in eastern Australia. Canberra: Water Research Foundation of Australia, 1998.

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43

(Editor), Stephen A. Norton, S. E. Lindberg (Editor), and A. L. Page (Editor), eds. Soils, Aquatic Processes, and Lake Acidification (Advances in Environmental Science / Acidic Precipitation). Springer, 1989.

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44

Kosareva, I. A., E. Yu Kudryavtseva, and T. V. Okhotnikova. TRITICALE: DESCRIPTION OF ACCESSIONS ACCORDING TO THEIR RESISTANCE TO ALUMINUM TOXICITY OF ACIDIC SOILS. N.I. Vavilov All-Russian Institute of Plant Genetic Resources, 2019. http://dx.doi.org/10.30901/978-5-907145-07-8.

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45

C, Kielen Neeltje, and International Irrigation Management Institute. Pakistan National Program., eds. Salinity and sodicity effects on soils and crops in the Chishtian Sub-division: Documentation of a restitution process. Lahore: International Irrigation Management Institute, 1996.

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46

Plant-Soil Interactions at Low pH (Developments in Plant and Soil Sciences). Springer, 2007.

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47

Plant-soil interactions at low pH: Sustainable agriculture and forestry production : Proceedings of the fourth International Symposium on Plant-Soil Interactions ... Minas Gerais, Brazil, 17-24 March 1996. Brazilian Soil Science Society, 1997.

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48

Peverill, KI, LA Sparrow, and DJ Reuter, eds. Soil Analysis: An Interpretation Manual. CSIRO Publishing, 1999. http://dx.doi.org/10.1071/9780643101357.

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Soil Analysis: An Interpretation Manual is a practical guide to soil tests. It considers what soil tests are, when they can be used reliably and consistently, and discusses what limits their application. It is the first nationally accepted publication that is appropriate for Australian soils and conditions. The first three chapters review the general principles and concepts of soil testing, factors affecting soil test interpretation and soil sampling and handling procedures. The next two chapters describe morphological indicators of soil and include colour plates of major Australian agricultural soils. These are followed by a series of chapters which present soil test calibration data for individual elements or a related group of tests such as the range of soil tests used to interpret soil acidity. Each of these chapters also summarises the reactions of the particular element or parameter in the soil and describes the tests commonly used in Australia. The final chapter presents a structured approach to nutrient management and making fertiliser recommendations using soil test data. The manual will be of particular interest to soil and environmental scientists, farm advisers, consultants and primary producers who will find the manual an essential reference to understanding and interpreting soil test data. Many of the soil tests evaluated in the book are used throughout the world. Soil Analysis: An Interpretation Manual was commissioned and developed by the Australian Soil and Plant Analysis Council (ASPAC). It comprises the work of 37 experts, which has been extensively peer reviewed.
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49

Wilsey, Brian J. Biodiversity of Grasslands. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198744511.003.0002.

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Grasslands can be surprisingly diverse and contain many charismatic flora and fauna. Plant species are often combined into functional groups. Three major conceptual models: competitors-stress tolerants-ruderals (CSR); the leaf traits, plant height, seed mass (LHS); and R*, used to classify grassland species are described by the author. There are three distinct groups of mammalian herbivores based on the ways that herbivores harbor cellulose degrading microbes: hindgut fermentation, foregut fermentation, and foregut fermentation with rumination. Grasslands have a smaller number of bird species than forested systems, and the bird species that are endemic to grasslands tend to be specialized to open habitat (e.g., large flightless birds). Abundant insects can gathered into feeding groups. Single-celled organisms are important in grassland nutrient cycling and as mutualists and pathogens and are extremely abundant in soil. Soil pH is a strong predictor of bacterial diversity (as in plants), with diversity higher in neutral than in acidic soils.
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50

Roberts, Christine. Spatial relationships of vesicular-arbuscular mycorrhizae, soil fauna and soil nutrients in the juniper-sagebrush-grass communities of central Oregon. 1994.

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