Laserfiche WebLink
Hydric Soil List-All Components�-Hennepin County,Minnesota <br /> Hydric Soil List - All Components <br /> This table lists the map unit components and their hydric status in the survey <br /> area. This list can help in planning land uses; however, onsite investigation is <br /> recommended to determine the hydric soils on a specific site (National Research <br /> Council, 1995; Hurt and others, 2002). <br /> The three essential characteristics of wetlands are hydrophytic vegetation, hydric <br /> soils, and wetland hydrology (Cowardin and others, 1979; U.S. Army Corps of <br /> Engineers, 1987; National Research Council, 1995; Tiner, 1985). Criteria for all of <br /> the characteristics must be met for areas to be identified as wetlands. Undrained <br /> hydric soils that have natural vegetation should support a dominant population of <br /> ecological wetland plant species. Hydric soils that have been converted to other <br /> uses should be capable of being restored to wetlands. <br /> Hydric soils are defined by the National Technical Committee for Hydric Soils <br /> (NTCHS)as soils that formed under conditions of saturation, flooding, or ponding <br /> long enough during the growing season to develop anaerobic conditions in the <br /> upper part (Federal Register, 1994). These soils, under natural conditions, are <br /> either saturated or inundated long enough during the growing season to support <br /> the growth and reproduction of hydrophytic vegetation. <br /> The NTCHS definition identifies general soil properties that are associated with <br /> wetness. In order to determine whether a specific soil is a hydric soil or nonhydric <br /> soil, however, more specific information, such as information about the depth and <br /> duration of the water table, is needed. Thus, criteria that identify those estimated <br /> soil properties unique to hydric soils have been established (Federal Register, <br /> 2002). These criteria are used to identify map unit components that normally are <br /> associated with wetlands. The criteria used are selected estimated soil properties <br /> that are described in "Soil Taxonomy" (Soil Survey Staff, 1999)and "Keys to Soil <br /> Taxonomy" (Soil Survey Staff, 2006)and in the "Soil Survey Manual" (Soil Survey <br /> Division Staff, 1993). <br /> If soils are wet enough for a long enough period of time to be considered hydric, <br /> they should exhibit certain properties that can be easily observed in the field. <br /> These visible properties are indicators of hydric soils. The indicators used to <br /> make onsite determinations of hydric soils are specified in "Field Indicators of <br /> Hydric Soils in the United States" (Hurt and Vasilas, 2006). <br /> Hydric soils are identified by examining and describing the soil to a depth of <br /> about 20 inches. This depth may be greater if determination of an appropriate <br /> indicator so requires. It is always recommended that soils be excavated and <br /> described to the depth necessary for an understanding of the redoximorphic <br /> processes. Then, using the completed soil descriptions, soil scientists can <br /> compare the soil features required by each indicator and specify which indicators <br /> have been matched with the conditions observed in the soil. The soil can be <br /> identified as a hydric soil if at least one of the approved indicators is present. <br /> Map units that are dominantly made up of hydric soils may have small areas, or <br /> inclusions, of nonhydric soils in the higher positions on the landform, and map <br /> units dominantly made up of nonhydric soils may have inclusions of hydric soils <br /> in the lower positions on the landform. <br /> The criteria for hydric soils are represented by codes in the table (for example, <br /> 2). Definitions for the codes are as follows: <br /> iiNatural Resources Web Soil Survey 7/18/2017 <br /> Conservation Service National Cooperative Soil Survey Page 1 of 3 <br />