A Stagnosol in the World Reference Base for Soil Resources (WRB) is soil with strong mottling of the soil profile due to redox processes caused by stagnating surface water .
37-519: (Redirected from Acrisols ) Acrisol [REDACTED] A Stagnic Acrisol profile from Malaysia Used in WRB WRB code AC Profile AEBtC Parent material various Climate tropical , humid subtropical An Acrisol is a Reference Soil Group of the World Reference Base for Soil Resources (WRB). It has
74-1566: A clay-rich subsoil and is associated with humid, tropical climates, such as those found in Brazil , and often supports forested areas. In the USDA soil taxonomy , Acrisols correspond to the Humult, Udult and Ustult suborders of the Ultisols and also to Oxisols with a kandic horizon and to some Alfisols . The Acrisols low fertility and toxic amounts of aluminium pose limitations to its agricultural use, favouring in many places its use for silviculture , low intensity pasture and protected areas. Crops that can be successfully cultivated, if climate allows, include tea , rubber tree , oil palm , coffee and sugar cane . See also [ edit ] Soil horizon Soil type References [ edit ] ^ IUSS Working Group WRB (2022). "World Reference Base for Soil Resources, fourth edition" (PDF) . International Union of Soil Sciences, Vienna. ^ T. R. Yu (1997). Chemistry of Variable Charge Soils . Oxford University Press. p. 36. ISBN 0-19-509745-9 . ^ Soil Survey Staff (2014). "Keys to Soil Taxonomy, twelfth edition" . United States Department of Agriculture, Washington, D.C. ^ CHESWORTH, WARD. Encyclopedia of Soil Science. 2001. pp. 22-24 Further reading [ edit ] W. Zech, P. Schad, G. Hintermaier-Erhard: Soils of
111-653: A dense, slowly permeable subsoil with significantly more clay than the surface horizon. In the US Soil Classification of 1938 used the name Planosols, whereas its successor, the USDA soil taxonomy , includes most Planosols in the Great Groups Albaqualfs, Albaquults and Argialbolls. World Reference Base for Soil Resources The World Reference Base for Soil Resources ( WRB ) is an international soil classification system for naming soils and creating legends for soil maps. The currently valid version
148-653: A draft. This draft was presented at the 15th World Congress of Soil Science in Acapulco in 1994. At the same congress, the WRB was established as an ISSS working group replacing the IRB. At the 16th World Congress of Soil Science in Montpellier in 1998, the first edition of the WRB was published. At the same congress, the ISSS endorsed the WRB as its correlation system for soil classification. (In 2014,
185-421: A map unit not just one soil is indicated but an association of soils. For this purpose, WRB uses the following nomenclature: Soils representing smaller areas are ignored in the denomination of the map unit. For codominant and associated soils, it is allowed to use less principal qualifiers than would correspondent to the used map scale level. The use of specifiers is not recommended due to the generalization that
222-454: A minimum thickness and therefore a horizontal appearance. The diagnostics have names (e. g. argic horizon, stagnic properties, fluvic material). The classification comprises two levels: The first level has 32 Reference Soil Groups (RSGs). At the second level, for further differentiation a set of qualifiers is added to the name of the RSG. There are 202 qualifiers in total. For every RSG, there
259-456: A similar approach as the French référencial pédologique (1992, 1995, 2008). Contrary to that, the USDA soil taxonomy is strongly hierarchical and has six levels. The classification in WRB is based mainly on soil morphology (field and laboratory data) as an expression of pedogenesis . Another difference with USDA soil taxonomy is that soil climate is regarded only as a soil-forming factor and not as
296-463: A soil characteristic. The WRB is not meant to replace national soil classification systems, which, for their area, may be more detailed than the WRB. The WRB is edited by a working group of the International Union of Soil Sciences (IUSS). The current chair of the working group is Cezary Kabala ( Wroclaw University of Environmental and Life Sciences , Poland, since 2022). The current vice-chair
333-400: A soil to a certain RSG. In a defined sequence, the key asks for the presence or absence of certain diagnostics in a certain depth range. In addition, the key asks for single characteristics, e. g., a certain clay content or a certain base saturation. The soil belongs to the first RSG, for which it fulfils the set of criteria. The qualifiers available for use with a particular RSG are listed in
370-519: A soil-forming process) apply. Stagnic is found further up in the list. Therefore, the soil has to be named until now Albic Stagnic Luvisol. From the list of the supplementary qualifiers, Siltic (silty from 0 to 60 cm), Loamic (loamy from 60 cm downwards), Aric (ploughed), Cutanic (clay coatings), Differentic (the clay migration led to a significant difference in clay content), Endic (the argic horizon starts below 50 cm) and Ochric (relatively small concentrations of organic carbon) apply. Bringing
407-453: A soil. Depending on the purpose of the map or according to national traditions, at any scale level, elective qualifiers may be added. They may be additional principal qualifiers from further down the list and not already used in the soil name, or they may be supplementary qualifiers. They are placed using the above-mentioned rules for supplementary qualifiers; principal qualifiers first, then supplementary qualifiers. The WRB recommends that on
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#1732855804720444-400: Is Stephan Mantel ( International Soil Reference and Information Centre (ISRIC), The Netherlands, since 2018). Chairs of the WRB working group and responsible first authors of the WRB editions are: Seppe Deckers (Belgium, 1st edition 1998), Erika Michéli (Hungary, 2nd edition 2006) and Peter Schad (Germany, 3rd edition 2014 and 4th edition 2022). The WRB working group has a homepage that
481-503: Is a list of available qualifiers, which are subdivided into two types: Qualifiers may be principal for some RSGs and supplementary for others. The names of the RSGs and the qualifiers start with capital letters. They must be given in English and must not be translated into any other language in order to guarantee that a certain soil has the same name all over the world. A key is used for allocating
518-638: Is currently hosted by the ISRIC. It provides the following: The classification is based on diagnostic horizons , diagnostic properties and diagnostic materials , altogether called diagnostics . Diagnostic materials are materials that significantly influence soil-forming processes ( pedogenesis ). They may be inherited from the parent material or be the result of soil-forming processes. Diagnostic properties are typical results of soil-forming processes or reflect specific conditions of soil formation . Diagnostic horizons are typical results of soil-forming processes showing
555-441: Is light-coloured, and the upper part is darker. In the clay-richer horizon, we observe redoximorphic features; the oximorphic and the reductimorphic features sum up to 30% of the exposed area, the intensive colours found in the interiors of the aggregates. In spring, reducing conditions occur. The soil is ploughed regularly. Laboratory characteristics: The laboratory analyses confirm the high cation exchange capacity per kg clay in
592-543: Is limited because of their oxygen deficiency resulting from stagnating water above a dense subsoil. Therefore, they have to be drained. However, in contrast to Gleysols , drainage with channels or pipes is in many cases insufficient. It is necessary to have a higher porosity in the subsoil in order to improve the hydraulic conductivity . This may be achieved by deep loosening or deep ploughing. Drained Stagnosols can be fertile soils owing to their moderate degree of leaching. Stagnosols cover 150–200 million ha worldwide. For
629-591: Is mainly taken from Table 2 (Chapter 1) of the WRB Manual. Soils with thick organic layers Soils with strong human influence Soils with limitations to root growth Soils distinguished by Fe/Al chemistry Pronounced accumulation of organic matter in the mineral topsoil Accumulation of moderately soluble salts or non-saline substances Soils with clay-enriched subsoil Note: The exchangeable base cations are given in cmol c kg . Soils with little or no profile differentiation Our example soil has
666-412: Is optional: The number of qualifiers used in a map legend depends on the scale. The WRB distinguishes three map scale levels : Correlating the map scale levels with concrete scales is difficult because selecting a map scale level depends very much from the homogeneity/heterogeneity of the landscape. The principal qualifiers are added before the name of the RSG following the rules explained for naming
703-468: Is required when making maps. In map legends, the names of the RSGs are given in plural; in all other cases they are given in singular. The WRB Manual comprises seven chapters and six annexes. The seven chapters are followed by six annexes: This is the list of the 32 Reference Soil Groups in the sequence of the key (Chapter 4 of the WRB Manual), including the codes (Chapter 6 of the WRB Manual). This list
740-456: Is the fourth edition 2022. It is edited by a working group of the International Union of Soil Sciences (IUSS). Since the 19th century, several countries developed national soil classification systems. During the 20th century, the need for an international soil classification system became more and more obvious. From 1971 to 1981, the Food and Agriculture Organization (FAO) and UNESCO published
777-619: The Soil Map of the World , 10 volumes, scale 1 : 5 M). The Legend for this map, published in 1974 under the leadership of Rudi Dudal , became the FAO soil classification . Many ideas from national soil classification systems were brought together in this worldwide-applicable system, among them the idea of diagnostic horizons as established in the '7th approximation to the USDA soil taxonomy' from 1960. The next step
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#1732855804720814-501: The USDA soil taxonomy also received the status of a correlation system.) At the 18th World Congress of Soil Science in Philadelphia in 2006, the second edition of the WRB was presented, and at the 20th World Congress of Soil Science in Jeju in 2014, the third edition. An update of the third edition was issued in 2015. Whereas the second edition was only suitable for naming soils, the third and
851-556: The FAO soil classification. Drafts were presented in 1982 and 1990. In 1992, the IRB working group decided to develop a new system named World Reference Base for Soil Resources (WRB) that should further develop the Revised Legend of the FAO soil classification and include some ideas of the more systematic IRB approach. Otto Spaargaren ( International Soil Reference and Information Centre ) and Freddy Nachtergaele (FAO) were nominated to prepare
888-2517: The World. Springer, Berlin 2022, Chapter 7.3.1. ISBN 978-3-540-30460-9 External links [ edit ] profile photos (with classification) WRB homepage profile photos (with classification) IUSS World of Soils v t e Soil classification World Reference Base for Soil Resources (1998–) Acrisols Alisols Andosols Anthrosols Arenosols Calcisols Cambisols Chernozem Cryosols Durisols Ferralsols Fluvisols Gleysols Gypsisols Histosol Kastanozems Leptosols Lixisols Luvisols Nitisols Phaeozems Planosols Plinthosols Podzols Regosols Retisols Solonchaks Solonetz Stagnosol Technosols Umbrisols Vertisols USDA soil taxonomy Alfisols Andisols Aridisols Entisols Gelisols Histosols Inceptisols Mollisols Oxisols Spodosols Ultisols Vertisols Other systems FAO soil classification (1974–1998) Unified Soil Classification System AASHTO Soil Classification System Référentiel pédologique (French classification system) Canadian system of soil classification Australian Soil Classification Polish Soil Classification 1938 USDA soil taxonomy List of U.S. state soils List of vineyard soil types Non-systematic soil types Sand Silt Clay Loam Topsoil Subsoil Soil crust Claypan Hardpan Gypcrust Caliche Parent material Pedosphere Laimosphere Rhizosphere Bulk soil Alkali soil Bay mud Blue goo Brickearth Brown earth Calcareous grassland Dark earth Dry quicksand Duplex soil Eluvium Expansive clay Fill dirt Fuller's earth Hydrophobic soil Loess Lunar soil Martian soil Mud Muskeg Paleosol Peat Prime farmland Quicksand Serpentine soil Spodic soil Stagnogley Subaqueous soil Takir Terra preta Terra rossa Tropical peat Yedoma [REDACTED] Types of soil Retrieved from " https://en.wikipedia.org/w/index.php?title=Acrisol&oldid=1251077287 " Categories : Pedology Types of soil Stagnosol Stagnosols are periodically wet and mottled in
925-430: The clay-richer horizon and the dominance of exchangeable base cations over exchangeable Al in the subsoil. In the topsoil, we find 20% clay , 10% sand , and 70% silt ; in the subsoil, 35% clay, 8% sand, and 57% silt. Organic matter concentrations in the topsoil are intermediate. The naming of the soil consists of four steps. Question 1: Does the soil have diagnostic horizons, properties and materials? The soil has
962-484: The depth-related specifiers Ano- and Endo- to construct the subqualifiers Anosiltic and Endoloamic. The stagnic properties occur only in the subsoil and the albic horizon around 50 cm. This means that we can use the subqualifiers Endostagnic and Amphialbic. Using these specifiers does not change the position of the qualifiers in the soil name. Now, the soil name is: Amphialbic Endostagnic Luvisol (Anosiltic, Endoloamic, Aric, Cutanic, Differentic Endic, Ochric). Using
999-467: The following characteristics: Field characteristics (described according to Annex 1 of the WRB Manual): A soil developed from loess shows a marked clay increase in around 60 cm depth and clay coatings in the clay-richer horizon. According to the landscape setting, we presume that high-activity clays dominate. In the field, a pH of 6 is measured in the subsoil. The lower part of the clay-poorer topsoil
1036-542: The following diagnostics: Question 2: To which RSG does the soil belong? We have to go through the key, RSG for RSG. This soil is not a Histosol, not an Anthrosol, not a Technosol etc. Finally, we end up with the Luvisol . This is the first RSG in the key, the criteria of which our soil completely fulfils. Question 3: Which qualifiers apply? From the list of the principal qualifiers, Stagnic (stagnic properties and reducing conditions) and Albic (light colours resulting from
1073-584: The following edition can additionally be used for creating map legends. At the 22nd World Congress of Soil Science in Glasgow in 2022, the fourth edition was published. The 4th edition is an open access document under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. The WRB has two hierarchical levels (see below) and has in that sense
1110-497: The greater part in humid to perhumid temperate regions of West and Central Europe , North America , southeast Australia and Argentina . Here Stagnosols are associated with Luvisols as well as silty to clayey Cambisols and Umbrisols . They also occur in humid to perhumid subtropical regions, where they are associated with Acrisols and Planosols . with a light-coloured, coarse-textured , surface horizon that shows signs of periodic water stagnation and abruptly overlies
1147-476: The key, along with the RSG. Their number is from 40 to 79. All applying qualifiers must be added to the soil name. The principal qualifiers are added before the name of the RSG. The sequence is from right to left, i. e., the uppermost qualifier in the list is placed closest to the name of the RSG. If no other principal qualifier applies, the Haplic qualifier is used. The supplementary qualifiers are added in brackets after
Acrisol - Misplaced Pages Continue
1184-444: The list are separated by a slash (/), only one of them can be used. The slash signifies that these qualifiers are either mutually exclusive (e. g. Dystric and Eutric) or one of them is redundant with the redundant qualifier(s) listed after the slash(es). In the soil name, supplementary qualifiers are always placed in the order of the alphabet (exception: supplementary qualifiers related to the texture, see above), even if their position in
1221-602: The list differs from the alphabetical sequence due to the use of the slash. It is a general rule that qualifiers conveying redundant information are not used. Example: If a soil has the Calcaric qualifier (carbonates present) the Eutric qualifier (high base saturation) is not used. Qualifiers may be combined with specifiers (e. g. Epi-, Proto-) to form subqualifiers (e. g. Epiarenic, Protocalcic). The depth-related specifiers referring to layers are of special importance, although their use
1258-408: The name of the RSG and are separated from each other by commas. The sequence is from left to right. Supplementary qualifiers related to the texture, if applicable, are the first in the list. If several ones apply, they are placed in the sequence from the top to the bottom of the soil profile. All other supplementary qualifiers follow them and are used in alphabetical order. If two or more qualifiers in
1295-427: The supplementary qualifiers into the correct order (first the textural qualifiers from the top to the bottom of the soil profile, then all others in alphabetical order), the soil is an Albic Stagnic Luvisol (Siltic, Loamic, Aric, Cutanic, Differentic, Endic, Ochric). Question 4: Which specifiers can be used to form subqualifiers? The soil is Siltic from 0 to 60 cm and Loamic from 60 cm downwards. We can use
1332-754: The topsoil and subsoil , with or without concretions and/or bleaching. The topsoil can also be completely bleached (albic horizon ). A common name in many national classification systems for most Stagnosols is pseudogley . In the USDA soil taxonomy , many of them belong to the Aqualfs, Aquults, Aquents, Aquepts and Aquolls. They are developed in a wide variety of unconsolidated materials like glacial till , and loamy aeolian , alluvial and colluvial deposits and physically weathered siltstone. Stagnosols occur on flat to gently sloping land in cool temperate to subtropical regions with humid to perhumid climate conditions. The agricultural suitability of Stagnosols
1369-604: Was the Revised Legend of the Soil Map of the World, published in 1988. In 1982, the International Soil Science Society (ISSS; now: International Union of Soil Sciences , IUSS) established a working group named International Reference Base for Soil Classification (IRB). Chair of this working group was Ernst Schlichting [ de ] . Its mandate was to develop an international soil classification system that should better consider soil-forming processes than
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