Books: 'Acide sulfate soils'

1

Acid sulfate soils in Malaysia. Serdang: Universiti Putera Malaysia Press, 2006.

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2

Võ, Quang Minh, Thị Gương Võ, and Mỹ Hoa Nguyễn. Một số kết quả nghiên cứu về sử dụng và quản lý đất phèn ở Đồng bằng Sông Cửu Long. TP. [i.e. Thành phố] Hồ Chí Minh: Nhà xuất bản Nông nghiệp, 2010.

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3

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

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4

Jacobs, James A., Jay H. Lehr, and Stephen M. Testa, eds. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2014. http://dx.doi.org/10.1002/9781118749197.

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5

Colley, Raymond. Constraints imposed by acid sulfate soils on the Gambia's bridge-barrage scheme. Ann Arbor, Mich: Great Lakes and Marine Waters Center, University of Michigan, 1985.

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6

Boivin, Pascal. Caractérisation physique des sols sulfatés acides de la vallée de Katouré, Basse Casmance, Sénégal : étude de la variabilité spatiale et relation avec les caractériques pédologiques. Paris: Editions de l'ORSTOM, 1991.

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7

Krasilʹnikov, P. V. Sulʹfatnokislye pochvy vostochnoĭ Fennoskandii (na vneberegovykh otlozhenii͡a︡kh). Petrozavodsk: Rossiĭskai͡a︡ akademii͡a︡ nauk, Karelʹskiĭ nauch. t͡s︡entr in-t biologii, 1997.

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8

Dent, David. Quick quantitative assessment of the acid sulphate hazard. Glen Osmond, S. Aust: CSIRO Division of Soils, 1996.

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9

Simposium, Nasional Pendayagunaan Tanah Masam (2003 Bandar Lampung Indonesia and Lampung Timur Indonesia). Prosiding. Bogor: Pusat Penelitian dan Pengembangan Tanah dan Agroklimat, Badan Penelitian dan Pengembangan Pertanian, Departemen Pertanian, 2004.

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10

Ohmann, L. F. Properties of soils and tree wood tissue across a Lake States sulfate deposition gradient. St. Paul, Minn: U.S. Dept. of Agriculture, Forest Service, North Central Forest Experiment Station, 1991.

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11

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

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12

Byerly, Don W. Guidelines for handling excavated acid-producing materials. [Washington, D.C.]: U.S. Dept. of Transportation, Federal Highway Administration, 1990.

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13

Hossner, L. R., Delvin Seymour Fanning, and J. A. Kittrick. Acid Sulfate Weathering. Wiley & Sons, Limited, John, 2015.

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14

Acid Sulfate Soils: A Baseline for Research and Development (ILRI Publication). Water Resources Pubns, 1986.

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15

Hazelton, Pam, and Brian Murphy. Interpreting Soil Test Results. CSIRO Publishing, 2007. http://dx.doi.org/10.1071/9780643094680.

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Interpreting Soil Test Results is a practical reference for those who need to interpret results from laboratory analysis of soil. It has a comprehensive listing of the soil properties relevant to most environmental and natural land resource issues and investigations. The precursor to this book, What Do All the Numbers Mean?, known as The Numbers Book, was widely used and accepted for interpreting soil test results. This new edition has been completely updated and many sections have been expanded, particularly those on acid sulfate soils and soil salinity. It is a handy and straightforward guide to interpretation of the numbers associated with a wide range of soil tests.

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16

Isbell, R. Australian Soil Classification. CSIRO Publishing, 2016. http://dx.doi.org/10.1071/9781486304646.

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The Australian Soil Classification provides a framework for organising knowledge about Australian soils by allocating soils to classes via a key. Since its publication in 1996, this book has been widely adopted and formally endorsed as the official national system. It has provided a means of communication among scientists and land managers and has proven to be of particular value in land resource survey and research programs, environmental studies and education. Classification is a basic requirement of all science and needs to be periodically revised as knowledge increases. This Second Edition of The Australian Soil Classification includes updates from a working group of the National Committee on Soil and Terrain (NCST), especially in regards to new knowledge about acid sulfate soils (sulfidic materials). Modifications include expanding the classification to incorporate different kinds of sulfidic materials, the introduction of subaqueous soils as well as new Vertosol subgroups, new Hydrosol family criteria and the consistent use of the term reticulate. All soil orders except for Ferrosols and Sodosols are affected by the changes.

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17

Hazelton, Pam, and Brian Murphy. Interpreting Soil Test Results. CSIRO Publishing, 2016. http://dx.doi.org/10.1071/9781486303977.

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Interpreting Soil Test Results is a practical reference enabling soil scientists, environmental scientists, environmental engineers, land holders and others involved in land management to better understand a range of soil test methods and interpret the results of these tests. It also contains a comprehensive description of the soil properties relevant to many environmental and natural land resource issues and investigations. This new edition has an additional chapter on soil organic carbon store estimation and an extension of the chapter on soil contamination. It also includes sampling guidelines for landscape design and a section on trace elements. The book updates and expands sections covering acid sulfate soil, procedures for sampling soils, levels of nutrients present in farm products, soil sodicity, salinity and rainfall erosivity. It includes updated interpretations for phosphorus in soils, soil pH and the cation exchange capacity of soils. Interpreting Soil Test Results is ideal reading for students of soil science and environmental science and environmental engineering; professional soil scientists, environmental scientists, engineers and consultants; and local government agencies and as a reference by solicitors and barristers for land and environment cases.

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18

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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19

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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20

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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21

Rayment, George E., and David J. Lyons. Soil Chemical Methods - Australasia. CSIRO Publishing, 2010. http://dx.doi.org/10.1071/9780643101364.

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Soil Chemical Methods – Australasia describes over 200 laboratory and field chemical tests relevant to Australasia and beyond. The information and methodology provided across 20 chapters is comprehensive, systematic, uniquely coded, up-to-date and designed to promote chemical measurement quality. There is guidance on the choice and application of analytical methods from soil sampling through to the reporting of results. In many cases, optional analytical ‘finishes’ are provided, such as flow-injection analysis, electro-chemistry, multiple flame technologies, and alternatives to chemical testing offered by near-range and mid-range infrared diffuse reflectance spectroscopy. The book supersedes and updates the soil chemical testing section of the 1992 Australian Laboratory Handbook of Soil and Water Chemical Methods of Rayment and Higginson, while retaining method codes and other strengths of that Handbook. Chapters cover soil sampling, sample preparation and moisture content; electrical conductivity and redox potential; soil pH; chloride; carbon; nitrogen; phosphorus; sulphur; gypsum; micronutrients; extractable iron, aluminium and silicon; saturation extracts; ion-exchange properties; lime requirements; total miscellaneous elements; miscellaneous extractable elements; alkaline earth carbonates and acid sulfate soils. In addition, there are informative Appendices, including information on the accuracy and precision of selected methods. This book targets practising analysts, laboratory managers, students, academics, researchers, consultants and advisors involved in the analysis, use and management of soils for fertility assessments, land use surveys, environmental studies and for natural resource management.

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22

Scott, Keith, and Colin Pain, eds. Regolith Science. CSIRO Publishing, 2009. http://dx.doi.org/10.1071/9780643098268.

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This comprehensive reference on the fundamentals of regolith geoscience describes how regolith is developed from parental rocks and emphasises the importance of chemical, physical, water and biological processes in regolith formation. It provides details for mapping regolith landforms, as well as objective information on applications in mineral exploration and natural resource management. Regolith Science also provides a concise history of weathering through time in Australia. It includes previously unpublished information on elemental abundances in regolith materials along with detailed information on soil degradation processes such as acid sulfate soils. Written by experts in the field, Regolith Science summarises research carried out over a 13-year period within the Cooperative Research Centre for Landscape Environments and Mineral Exploration. This book will be a valuable resource for scientists and graduate/postgraduate students in geology, geography and soil science, professionals in the exploration industry and natural resources management. This paperback edition is a reprint of the original hardback published in October 2008.

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23

A, Jacobs James, Stephen M. Testa, and Jay H. Lehr. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils: Causes, Assessment, Prediction, Prevention, and Remediation. Wiley & Sons, Incorporated, John, 2014.

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24

A, Jacobs James, Stephen M. Testa, and Jay H. Lehr. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils: Causes, Assessment, Prediction, Prevention, and Remediation. Wiley & Sons, Incorporated, John, 2014.

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25

Jacobs, James A., Stephen M. Testa, and Jay H. Lehr. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils: Causes, Assessment, Prediction, Prevention, and Remediation. Wiley, 2014.

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26

A, Jacobs James, Stephen M. Testa, and Jay H. Lehr. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils: Causes, Assessment, Prediction, Prevention, and Remediation. Wiley & Sons, Incorporated, John, 2014.

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27

A, Jacobs James, Stephen M. Testa, and Jay H. Lehr. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils: Causes, Assessment, Prediction, Prevention, and Remediation. Wiley & Sons, Incorporated, John, 2015.

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28

A, Jacobs James, Stephen M. Testa, and Jay H. Lehr. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils: Causes, Assessment, Prediction, Prevention, and Remediation. Wiley & Sons, Limited, John, 2014.

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29

A, Jacobs James, Stephen M. Testa, and Jay H. Lehr. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils: Causes, Assessment, Prediction, Prevention, and Remediation. Wiley & Sons, Incorporated, John, 2014.

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30

A, Jacobs James, Stephen M. Testa, and Jay H. Lehr. Acid Mine Drainage, Rock Drainage, and Acid Sulfate Soils: Causes, Assessment, Prediction, Prevention, and Remediation. Wiley & Sons, Incorporated, John, 2014.

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31

Wildensee, Frank. Surface complexation of protons and sulfate by kaolinite. 1989.

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32

H, Van den Bosch, ed. Evaluation of water management strategies for sustainable land use of acid sulphate soils in coastal low lands in the tropics. Wageningen: DLO-Staring Centrum, 1998.

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Books on the topic 'Acide sulfate soils'

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