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Soil science

February 05, 2023

Soil science is the study of soil as a natural resource on the surface of the Earth including soil formation, classification and mapping; physical, chemical, biological, and fertility properties of soils; and these properties in relation to the use and management of soils.[1]

Soil scientist examining horizons within a soil profile

Sometimes terms which refer to branches of soil science, such as pedology (formation, chemistry, morphology, and classification of soil) and edaphology (how soils interact with living things, especially plants), are used as if synonymous with soil science. The diversity of names associated with this discipline is related to the various associations concerned. Indeed, engineers, agronomists, chemists, geologists, physical geographers, ecologists, biologists, microbiologists, silviculturists, sanitarians, archaeologists, and specialists in regional planning, all contribute to further knowledge of soils and the advancement of the soil sciences.[1]

Soil scientists have raised concerns about how to preserve soil and arable land in a world with a growing population, possible future water crisis, increasing per capita food consumption, and land degradation.[2]

Fields of study

Soil occupies the pedosphere, one of Earth's spheres that the geosciences use to organize the Earth conceptually. This is the conceptual perspective of pedology and edaphology, the two main branches of soil science. Pedology is the study of soil in its natural setting. Edaphology is the study of soil in relation to soil-dependent uses. Both branches apply a combination of soil physics, soil chemistry, and soil biology. Due to the numerous interactions between the biosphere, atmosphere and hydrosphere that are hosted within the pedosphere, more integrated, less soil-centric concepts are also valuable. Many concepts essential to understanding soil come from individuals not identifiable strictly as soil scientists. This highlights the interdisciplinary nature of soil concepts.

Research

Dependence on and curiosity about soil, exploring the diversity and dynamics of this resource continues to yield fresh discoveries and insights. New avenues of soil research are compelled by a need to understand soil in the context of climate change,[3][4] greenhouse gases, and carbon sequestration.[3] Interest in maintaining the planet's biodiversity and in exploring past cultures has also stimulated renewed interest in achieving a more refined understanding of soil.

Mapping

This section is an excerpt from Soil survey.[edit]

Soil survey, soil mapping, is the process of classifying soil types and other soil properties in a given area and geo-encoding such information. It applies the principles of soil science, and draws heavily from geomorphology, theories of soil formation, physical geography, and analysis of vegetation and land use patterns. Primary data for the soil survey are acquired by field sampling and by remote sensing. Remote sensing principally uses aerial photography, but LiDAR and other digital techniques are steadily gaining in popularity. In the past, a soil scientist would take hard-copies of aerial photography, topo-sheets, and mapping keys into the field with them. Today, a growing number of soil scientists bring a ruggedized tablet computer and GPS into the field with them. The tablet may be loaded with digital aerial photos, LiDAR, topography, soil geodatabases, mapping keys, and more.

The term soil survey may also be used as a noun to describe the published results. In the United States, these surveys were once published in book form for individual counties by the National Cooperative Soil Survey. Today, soil surveys are no longer published in book form; they are published to the web and accessed on NRCS Web Soil Survey where a person can create a custom soil survey. This allows for rapid flow of the latest soil information to the user. In the past it could take years to publish a paper soil survey. Today it takes only moments for changes to go live to the public. Also, the most current soil survey data is made available on the Download Soils Data tab at NRCS Web Soil Survey for high end GIS users such as professional consulting companies and universities.

The information in a soil survey can be used by farmers and ranchers to help determine whether a particular soil type is suited for crops or livestock and what type of soil management might be required. An architect or engineer might use the engineering properties of a soil to determine whether it is suitable for a certain type of construction. A homeowner may even use the information for maintaining or constructing their garden, yard, or home.

Soil survey information can be used to predict or estimate the potentials and limitations of soils for many specific uses. A soil survey includes an important part of the information that is used to make workable plans for land management. The information must be interpreted to be usable by professional planners and others. Predictions based on soil surveys serve as a basis for judgment about land use and management for areas ranging from small tracts to regions of several million acres. These predictions, however, must be evaluated along with economic, social, and environmental considerations before they can be used to make valid recommendations for land use and management.[5]

Classification

Main article: soil classification
 
Map of global soil regions from the USDA

In 1998, the World Reference Base for Soil Resources (WRB) replaced the FAO soil classification as the international soil classification system. The currently valid version of WRB is the 4th edition, 2022.[6] The FAO soil classification, in turn, borrowed from modern soil classification concepts, including USDA soil taxonomy.

WRB is based mainly on soil morphology as an expression of pedogenesis. A major difference with USDA soil taxonomy is that soil climate is not part of the system, except insofar as climate influences soil profile characteristics.

Many other classification schemes exist, including vernacular systems. The structure in vernacular systems are either nominal, giving unique names to soils or landscapes, or descriptive, naming soils by their characteristics such as red, hot, fat, or sandy. Soils are distinguished by obvious characteristics, such as physical appearance (e.g., color, texture, landscape position), performance (e.g., production capability, flooding), and accompanying vegetation.[7] A vernacular distinction familiar to many is classifying texture as heavy or light. Light soil content and better structure, take less effort to turn and cultivate. Contrary to popular belief, light soils do not weigh less than heavy soils on an air dry basis nor do they have more porosity.

History

The earliest known soil classification system comes from China, appearing in the book Yu Gong (5th century BCE), where the soil was divided into three categories and nine classes, depending on its color, texture and hydrology.[8]

Contemporaries Friedrich Albert Fallou, the German founder of modern soil science, and Vasily Dokuchaev, the Russian founder of modern soil science, are both credited with being among the first to identify soil as a resource whose distinctness and complexity deserved to be separated conceptually from geology and crop production and treated as a whole. As a founding father of soil science Fallou has primacy in time. Fallou was working on the origins of soil before Dokuchaev was born, however Dokuchaev's work was more extensive and is considered to be the more significant to modern soil theory than Fallou's.

Previously, soil had been considered a product of chemical transformations of rocks, a dead substrate from which plants derive nutritious elements. Soil and bedrock were in fact equated. Dokuchaev considers the soil as a natural body having its own genesis and its own history of development, a body with complex and multiform processes taking place within it. The soil is considered as different from bedrock. The latter becomes soil under the influence of a series of soil-formation factors (climate, vegetation, country, relief and age). According to him, soil should be called the "daily" or outward horizons of rocks regardless of the type; they are changed naturally by the common effect of water, air and various kinds of living and dead organisms.[9]

A 1914 encyclopedic definition: "the different forms of earth on the surface of the rocks, formed by the breaking down or weathering of rocks".[10] serves to illustrate the historic view of soil which persisted from the 19th century. Dokuchaev's late 19th century soil concept developed in the 20th century to one of soil as earthy material that has been altered by living processes.[11] A corollary concept is that soil without a living component is simply a part of earth's outer layer.

Further refinement of the soil concept is occurring in view of an appreciation of energy transport and transformation within soil. The term is popularly applied to the material on the surface of the Earth's moon and Mars, a usage acceptable within a portion of the scientific community. Accurate to this modern understanding of soil is Nikiforoff's 1959 definition of soil as the "excited skin of the sub aerial part of the earth's crust".[12]

Areas of practice

Academically, soil scientists tend to be drawn to one of five areas of specialization: microbiology, pedology, edaphology, physics, or chemistry. Yet the work specifics are very much dictated by the challenges facing our civilization's desire to sustain the land that supports it, and the distinctions between the sub-disciplines of soil science often blur in the process. Soil science professionals commonly stay current in soil chemistry, soil physics, soil microbiology, pedology, and applied soil science in related disciplines

One interesting effort drawing in soil scientists in the USA as of 2004 is the Soil Quality Initiative. Central to the Soil Quality Initiative is developing indices of soil health and then monitoring them in a way that gives us long term (decade-to-decade) feedback on our performance as stewards of the planet. The effort includes understanding the functions of soil microbiotic crusts and exploring the potential to sequester atmospheric carbon in soil organic matter. The concept of agriculture in relation to soil quality, however, has not been without its share of controversy and criticism, including critiques by Nobel Laureate Norman Borlaug and World Food Prize Winner Pedro Sanchez.

A more traditional role for soil scientists has been to map soils. Most every area in the United States now has a published soil survey, which includes interpretive tables as to how soil properties support or limit activities and uses. An internationally accepted soil taxonomy allows uniform communication of soil characteristics and soil functions. National and international soil survey efforts have given the profession unique insights into landscape scale functions. The landscape functions that soil scientists are called upon to address in the field seem to fall roughly into six areas:

There are also practical applications of soil science that might not be apparent from looking at a published soil survey.

Fields of application in soil science

Related disciplines

Depression storage capacity

Depression storage capacity, in soil science, is the ability of a particular area of land to retain water in its pits and depressions, thus preventing it from flowing.[13] Depression storage capacity, along with infiltration capacity, is one of the main factors involved in Horton overland flow, whereby water volume surpasses both infiltration and depression storage capacity and begins to flow horizontally across land, possibly leading to flooding and soil erosion. The study of land's depression storage capacity is important in the fields of geology, ecology, and especially hydrology.

See also

References

  1. ^ a b Jackson, J. A. (1997). Glossary of Geology (4. ed.). Alexandria, Virginia: American Geological Institute. p 604. ISBN 0-922152-34-9
  2. ^ H. H. Janzen; et al. (2011). "Global Prospects Rooted in Soil Science". Soil Science Society of America Journal. 75 (1): 1. Bibcode:2011SSASJ..75....1J. doi:10.2136/sssaj2009.0216.
  3. ^ a b c Ochoa-Hueso, R; Delgado-Baquerizo, M; King, PTA; Benham, M; Arca, V; Power, SA (February 2019). "Ecosystem type and resource quality are more important than global change drivers in regulating early stages of litter decomposition". Soil Biology and Biochemistry. 129: 144–152. doi:10.1016/j.soilbio.2018.11.009. S2CID 92606851.
  4. ^ Pielke, Roger (12 December 2005). . The Climate Science Weblog. Archived from the original on 8 September 2006. Retrieved 19 April 2012.
  5. ^ "Soil Survey". NRCS Nebraska. US Department of Agriculture. Retrieved 5 September 2019.   This article incorporates text from this source, which is in the public domain.
  6. ^ a b IUSS Working Group WRB (2022). "World Reference Base for Soil Resources, 4th edition". IUSS, Vienna.
  7. ^ . Archived from the original on 6 March 2007. Retrieved 19 April 2012.
  8. ^ Arnold, R. et al. (2009) A Handbook of Soil Terminology, Correlation and Classification Earthscan, London, England.
  9. ^ Krasilnikov, N.A. (1958) Soil Microorganisms and Higher Plants 12 November 2004 at the Wayback Machine
  10. ^ Wikisource:The New Student's Reference Work/4-0310
  11. ^ Buol, S. W.; Hole, F. D. & McCracken, R. J. (1973). Soil Genesis and Classification (First ed.). Ames, IA: Iowa State University Press. ISBN 978-0-8138-1460-5..
  12. ^ C. C. Nikiforoff (1959). "Reappraisal of the soil: Pedogenesis consists of transactions in matter and energy between the soil and its surroundings". Science. 129 (3343): 186–196. Bibcode:1959Sci...129..186N. doi:10.1126/science.129.3343.186. PMID 17808687.
  13. ^ Hansen, Bjarne, Per Schjønning, and Erik Sibbesen. "Roughness indices for estimation of depression storage capacity of tilled soil surfaces 25 August 2017 at the Wayback Machine." Soil and Tillage Research 52.1 (1999): 103-111.
  • Soil Survey Staff (1993). (html) Soil Survey Manual USDA Handbook 18, Soil Conservation Service. U.S. Department of Agriculture. URL accessed on 2004-11-30.
  • Marion LeRoy Jackson (2005). Soil Chemical Analysis: Advanced Course. UW-Madison Libraries Parallel Press. pp. 5–. ISBN 978-1-893311-47-3.
 
Wikimedia Commons has media related to Soil science.

February 05, 2023
soil, science, study, soil, natural, resource, surface, earth, including, soil, formation, classification, mapping, physical, chemical, biological, fertility, properties, soils, these, properties, relation, management, soils, soil, scientist, examining, horizo. Soil science is the study of soil as a natural resource on the surface of the Earth including soil formation classification and mapping physical chemical biological and fertility properties of soils and these properties in relation to the use and management of soils 1 Soil scientist examining horizons within a soil profile Sometimes terms which refer to branches of soil science such as pedology formation chemistry morphology and classification of soil and edaphology how soils interact with living things especially plants are used as if synonymous with soil science The diversity of names associated with this discipline is related to the various associations concerned Indeed engineers agronomists chemists geologists physical geographers ecologists biologists microbiologists silviculturists sanitarians archaeologists and specialists in regional planning all contribute to further knowledge of soils and the advancement of the soil sciences 1 Soil scientists have raised concerns about how to preserve soil and arable land in a world with a growing population possible future water crisis increasing per capita food consumption and land degradation 2 Contents 1 Fields of study 2 Research 3 Mapping 4 Classification 5 History 6 Areas of practice 6 1 Fields of application in soil science 6 2 Related disciplines 7 Depression storage capacity 8 See also 9 ReferencesFields of study EditSoil occupies the pedosphere one of Earth s spheres that the geosciences use to organize the Earth conceptually This is the conceptual perspective of pedology and edaphology the two main branches of soil science Pedology is the study of soil in its natural setting Edaphology is the study of soil in relation to soil dependent uses Both branches apply a combination of soil physics soil chemistry and soil biology Due to the numerous interactions between the biosphere atmosphere and hydrosphere that are hosted within the pedosphere more integrated less soil centric concepts are also valuable Many concepts essential to understanding soil come from individuals not identifiable strictly as soil scientists This highlights the interdisciplinary nature of soil concepts Research EditDependence on and curiosity about soil exploring the diversity and dynamics of this resource continues to yield fresh discoveries and insights New avenues of soil research are compelled by a need to understand soil in the context of climate change 3 4 greenhouse gases and carbon sequestration 3 Interest in maintaining the planet s biodiversity and in exploring past cultures has also stimulated renewed interest in achieving a more refined understanding of soil Mapping EditThis section is an excerpt from Soil survey edit Soil survey soil mapping is the process of classifying soil types and other soil properties in a given area and geo encoding such information It applies the principles of soil science and draws heavily from geomorphology theories of soil formation physical geography and analysis of vegetation and land use patterns Primary data for the soil survey are acquired by field sampling and by remote sensing Remote sensing principally uses aerial photography but LiDAR and other digital techniques are steadily gaining in popularity In the past a soil scientist would take hard copies of aerial photography topo sheets and mapping keys into the field with them Today a growing number of soil scientists bring a ruggedized tablet computer and GPS into the field with them The tablet may be loaded with digital aerial photos LiDAR topography soil geodatabases mapping keys and more The term soil survey may also be used as a noun to describe the published results In the United States these surveys were once published in book form for individual counties by the National Cooperative Soil Survey Today soil surveys are no longer published in book form they are published to the web and accessed on NRCS Web Soil Survey where a person can create a custom soil survey This allows for rapid flow of the latest soil information to the user In the past it could take years to publish a paper soil survey Today it takes only moments for changes to go live to the public Also the most current soil survey data is made available on the Download Soils Data tab at NRCS Web Soil Survey for high end GIS users such as professional consulting companies and universities The information in a soil survey can be used by farmers and ranchers to help determine whether a particular soil type is suited for crops or livestock and what type of soil management might be required An architect or engineer might use the engineering properties of a soil to determine whether it is suitable for a certain type of construction A homeowner may even use the information for maintaining or constructing their garden yard or home Soil survey information can be used to predict or estimate the potentials and limitations of soils for many specific uses A soil survey includes an important part of the information that is used to make workable plans for land management The information must be interpreted to be usable by professional planners and others Predictions based on soil surveys serve as a basis for judgment about land use and management for areas ranging from small tracts to regions of several million acres These predictions however must be evaluated along with economic social and environmental considerations before they can be used to make valid recommendations for land use and management 5 Classification EditMain article soil classification Map of global soil regions from the USDA In 1998 the World Reference Base for Soil Resources WRB replaced the FAO soil classification as the international soil classification system The currently valid version of WRB is the 4th edition 2022 6 The FAO soil classification in turn borrowed from modern soil classification concepts including USDA soil taxonomy WRB is based mainly on soil morphology as an expression of pedogenesis A major difference with USDA soil taxonomy is that soil climate is not part of the system except insofar as climate influences soil profile characteristics Many other classification schemes exist including vernacular systems The structure in vernacular systems are either nominal giving unique names to soils or landscapes or descriptive naming soils by their characteristics such as red hot fat or sandy Soils are distinguished by obvious characteristics such as physical appearance e g color texture landscape position performance e g production capability flooding and accompanying vegetation 7 A vernacular distinction familiar to many is classifying texture as heavy or light Light soil content and better structure take less effort to turn and cultivate Contrary to popular belief light soils do not weigh less than heavy soils on an air dry basis nor do they have more porosity History EditThe earliest known soil classification system comes from China appearing in the book Yu Gong 5th century BCE where the soil was divided into three categories and nine classes depending on its color texture and hydrology 8 Contemporaries Friedrich Albert Fallou the German founder of modern soil science and Vasily Dokuchaev the Russian founder of modern soil science are both credited with being among the first to identify soil as a resource whose distinctness and complexity deserved to be separated conceptually from geology and crop production and treated as a whole As a founding father of soil science Fallou has primacy in time Fallou was working on the origins of soil before Dokuchaev was born however Dokuchaev s work was more extensive and is considered to be the more significant to modern soil theory than Fallou s Previously soil had been considered a product of chemical transformations of rocks a dead substrate from which plants derive nutritious elements Soil and bedrock were in fact equated Dokuchaev considers the soil as a natural body having its own genesis and its own history of development a body with complex and multiform processes taking place within it The soil is considered as different from bedrock The latter becomes soil under the influence of a series of soil formation factors climate vegetation country relief and age According to him soil should be called the daily or outward horizons of rocks regardless of the type they are changed naturally by the common effect of water air and various kinds of living and dead organisms 9 A 1914 encyclopedic definition the different forms of earth on the surface of the rocks formed by the breaking down or weathering of rocks 10 serves to illustrate the historic view of soil which persisted from the 19th century Dokuchaev s late 19th century soil concept developed in the 20th century to one of soil as earthy material that has been altered by living processes 11 A corollary concept is that soil without a living component is simply a part of earth s outer layer Further refinement of the soil concept is occurring in view of an appreciation of energy transport and transformation within soil The term is popularly applied to the material on the surface of the Earth s moon and Mars a usage acceptable within a portion of the scientific community Accurate to this modern understanding of soil is Nikiforoff s 1959 definition of soil as the excited skin of the sub aerial part of the earth s crust 12 Areas of practice EditAcademically soil scientists tend to be drawn to one of five areas of specialization microbiology pedology edaphology physics or chemistry Yet the work specifics are very much dictated by the challenges facing our civilization s desire to sustain the land that supports it and the distinctions between the sub disciplines of soil science often blur in the process Soil science professionals commonly stay current in soil chemistry soil physics soil microbiology pedology and applied soil science in related disciplinesOne interesting effort drawing in soil scientists in the USA as of 2004 update is the Soil Quality Initiative Central to the Soil Quality Initiative is developing indices of soil health and then monitoring them in a way that gives us long term decade to decade feedback on our performance as stewards of the planet The effort includes understanding the functions of soil microbiotic crusts and exploring the potential to sequester atmospheric carbon in soil organic matter The concept of agriculture in relation to soil quality however has not been without its share of controversy and criticism including critiques by Nobel Laureate Norman Borlaug and World Food Prize Winner Pedro Sanchez A more traditional role for soil scientists has been to map soils Most every area in the United States now has a published soil survey which includes interpretive tables as to how soil properties support or limit activities and uses An internationally accepted soil taxonomy allows uniform communication of soil characteristics and soil functions National and international soil survey efforts have given the profession unique insights into landscape scale functions The landscape functions that soil scientists are called upon to address in the field seem to fall roughly into six areas Land based treatment of wastes Septic system Manure Municipal biosolids Food and fiber processing waste Identification and protection of environmentally critical areas Sensitive and unstable soils Wetlands Unique soil situations that support valuable habitat and ecosystem diversity Management for optimum land productivity Silviculture Agronomy Nutrient management Water management Native vegetation Grazing Management for optimum water quality Stormwater management Sediment and erosion control Remediation and restoration of damaged lands Mine reclamation Flood and storm damage Contamination Sustainability of desired uses Soil conservationThere are also practical applications of soil science that might not be apparent from looking at a published soil survey Radiometric dating specifically a knowledge of local pedology is used to date prior activity at the site Stratification archeology where soil formation processes and preservative qualities can inform the study of archaeological sites Geological phenomena Landslides Active faults Altering soils to achieve new uses Vitrification to contain radioactive wastes Enhancing soil microbial capabilities in degrading contaminants bioremediation Carbon sequestration Environmental soil science Pedology Soil genesis Pedometrics Soil morphology Soil micromorphology Soil classification USDA soil taxonomy World Reference Base for Soil Resources 6 Soil biology Soil microbiology Soil chemistry Soil biochemistry Soil mineralogy Soil physics Pedotransfer function Soil mechanics and engineering Soil hydrology hydropedologyFields of application in soil science Edit Climate change 3 Ecosystem studies Pedotransfer function Soil fertility Nutrient management Soil management Soil survey Standard methods of analysis Watershed and wetland studiesRelated disciplines Edit Agricultural sciences Agricultural soil science Agrophysics science Irrigation management Anthropology archaeological stratigraphy Environmental science Landscape ecology Physical geography Geomorphology Geology Biogeochemistry Geomicrobiology Hydrology Hydrogeology Waste management Wetland scienceDepression storage capacity EditDepression storage capacity in soil science is the ability of a particular area of land to retain water in its pits and depressions thus preventing it from flowing 13 Depression storage capacity along with infiltration capacity is one of the main factors involved in Horton overland flow whereby water volume surpasses both infiltration and depression storage capacity and begins to flow horizontally across land possibly leading to flooding and soil erosion The study of land s depression storage capacity is important in the fields of geology ecology and especially hydrology See also EditAgricultural soil science Agroecology Agrology Agrophysics Australian Society of Soil Science Incorporated ASSSI Compost History of soil science International Soil Reference and Information Centre ISRIC International Union of Soil Sciences IUSS Liming soil List of Russian Earth scientists List of State Soil Science Associations List of State Soil Science Licensing Boards National Society of Consulting Soil Scientists NSCSS Resonant column test Soil biology Soil Science Society of America SSSA Soil value World Congress of Soil Science WCSS References Edit a b Jackson J A 1997 Glossary of Geology 4 ed Alexandria Virginia American Geological Institute p 604 ISBN 0 922152 34 9 H H Janzen et al 2011 Global Prospects Rooted in Soil Science Soil Science Society of America Journal 75 1 1 Bibcode 2011SSASJ 75 1J doi 10 2136 sssaj2009 0216 a b c Ochoa Hueso R Delgado Baquerizo M King PTA Benham M Arca V Power SA February 2019 Ecosystem type and resource quality are more important than global change drivers in regulating early stages of litter decomposition Soil Biology and Biochemistry 129 144 152 doi 10 1016 j soilbio 2018 11 009 S2CID 92606851 Pielke Roger 12 December 2005 Is Soil an Important Component of the Climate System The Climate Science Weblog Archived from the original on 8 September 2006 Retrieved 19 April 2012 Soil Survey NRCS Nebraska US Department of Agriculture Retrieved 5 September 2019 This article incorporates text from this source which is in the public domain a b IUSS Working Group WRB 2022 World Reference Base for Soil Resources 4th edition IUSS Vienna Vernacular Systems Archived from the original on 6 March 2007 Retrieved 19 April 2012 Arnold R et al 2009 A Handbook of Soil Terminology Correlation and Classification Earthscan London England Krasilnikov N A 1958 Soil Microorganisms and Higher Plants Archived 12 November 2004 at the Wayback Machine Wikisource The New Student s Reference Work 4 0310 Buol S W Hole F D amp McCracken R J 1973 Soil Genesis and Classification First ed Ames IA Iowa State University Press ISBN 978 0 8138 1460 5 C C Nikiforoff 1959 Reappraisal of the soil Pedogenesis consists of transactions in matter and energy between the soil and its surroundings Science 129 3343 186 196 Bibcode 1959Sci 129 186N doi 10 1126 science 129 3343 186 PMID 17808687 Hansen Bjarne Per Schjonning and Erik Sibbesen Roughness indices for estimation of depression storage capacity of tilled soil surfaces Archived 25 August 2017 at the Wayback Machine Soil and Tillage Research 52 1 1999 103 111 Soil Survey Staff 1993 Soil Survey Early Concepts of Soil html Soil Survey Manual USDA Handbook 18 Soil Conservation Service U S Department of Agriculture URL accessed on 2004 11 30 Marion LeRoy Jackson 2005 Soil Chemical Analysis Advanced Course UW Madison Libraries Parallel Press pp 5 ISBN 978 1 893311 47 3 Wikimedia Commons has media related to Soil science Retrieved from https en wikipedia org w index php title Soil science amp oldid 1134222537, wikipedia, wiki, book, books, library,

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