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Filters: Tags: SSURGO (X) > Types: ArcGIS REST Map Service (X)

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This is the SSURGO soils data from the USDA, NRCS, clipped to the boundary of Bear Valley NWR. Some of the attributes are included in this dataset, but not the entire database which is available from the NRCS. For full metadata, see this site: http://www.nrcs.usda.gov/wps/portal/nrcs/detail/tx/home/?cid=nrcs142p2_053631
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This map service is an information surface which displays the irrigated land capability class of each soil map unit based upon the dominant component in the soil map unit. Every soil component in the United States may be classified under one of the following land capability class categories: 1. Soils have slight limitations that restrict their use. 2. Soils have moderate limitations that reduce the choice of plants or require moderate conservation practices. 3. Soils have severe limitations that reduce the choice of plants or require special conservation practices, or both. 4. Soils have very severe limitations that restrict the choice of plants or require very careful management, or both. 5. Soils have little...
Available Water Storage (AWS). The volume of water that the soil, to a depth of 100 cm, can store that is available to plants. It is reported as the weighted average of all components in the map unit, and is expressed in cm of water. This map is made from NRCS SSURGO data table MUAGGATT, field AWS0100WTA. Note that the lines show connectivity a Available Water Storage (AWS). The volume of water that the soil, to a depth of 100 cm, can store that is available to plants. It is reported as the weighted average of all components in the map unit, and is expressed in cm of water. This map is made from NRCS SSURGO data table MUAGGATT, field AWS0100WTA. Note that the lines show connectivity and flow even through...
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Soils data compiled from USDA, Natural Resources Conservation Service, SSURGO data, then clipped to the refuge boundary. Some of the attributes have been added to the dataset, but not the complete set. For additional attributes, consult the full SSURGO data. More information can be found here: http://www.nrcs.usda.gov/wps/portal/nrcs/detail/soils/survey/geo/?cid=nrcs142p2_053631
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This map service is an information surface representing the shallowest distance to the top of a wet soil layer (the water table) within a soil map unit polygon. The value is the annual minimum as well as the component minimum, so the reported value is the nearest the water table gets to the surface of any significant component in the map unit at any time during the year. Although there is data for the whole United States for water table depths, not every map unit polygon has a value. Some parts of the United States have more complete coverage of water table depth than others, but values for water table depth depth are still rather piecemeal in character. Quite often, in many places, more than half of the soil...
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Mississippi River Basin Gridded SSURGO Hydric Classification – Presence "hydclprs". An indication of the proportion of the map unit that is hydric, based on the hydric classification of individual map unit components.
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This map service is an information surface representing the amount of available water storage (AWS) that is available to plants in the top 100cm (3.28 Feet) of soil. Available Water Storage (AWS) is expressed as centimeters of water, reported as the average of all components in the map unit. AWS is calculated from AWC (Available Water Capacity) which is commonly estimated as the difference between the water contents at 1/10 or 1/3 bar (field capacity) and 15 bars (permanent wilting point) tension, and adjusted for salinity and fragments. Available Water Storage (AWS) surfaces are available through arcgis.com for four soil depths, 25, 50, 100, and 150 centimeters from the surface of the soil. They are available...
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This map service is an information surface representing the shallowest distance to the top of a bedrock layer within a soil map unit polygon. To calculate this value, any component or combination of components in a soil map unit polygon that are greater than or equal to 15% of the whole soil map unit are considered significant. And of these significant components, the shallowest distance to bedrock is reported by this service. This means the average distance to bedrock of the entire soil map unit should be deeper than is reported here, but the shallowest distance is the more important information surface since this value limits capabilities and activities on the surface. Although there is data for the whole...
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The Gridded SSURGO National Commodity Crop Productivity Index (NCCPI), version 2.0, arrays soils according to their inherent capacity to produce dryland (nonirrigated) commodity crops. Most of the NCCPI criteria relate directly to the ability of soils, landscapes, and climates to foster crop productivity. A few criteria relate to factors that can limit use of the land (e.g., surface boulders). All criteria used in the index affect crop culture and production and are referred to as factors affecting inherent productivity. Higher values represent higher capacity for production. Extent: Mississippi River Basin. IN ORDER TO CREATE A MANAGEABLE FILE SIZE, THE ORGINAL DATA WAS MULTIPLIED BY 100, THUS VALUES RANGE FROM...
This map service is an information surface representing the maximum class within the soil map unit polygon for flooding frequency probability. Each component (and therefore soil map unit polygon) falls into one of the following classes according to NRCS: None, Very rare, Rare, Occasional, Frequent, and Very frequent. This service reports the significant component (making up at least 15% of the map unit) with the maximum flooding frequency probability class. Another service exists for flooding frequency class which reports the dominant class in the soil map unit. The concept is similar but for some cases knowing the dominant flooding frequency component may be a more useful information surface. Esri is providing...
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This map service is an information surface representing the dominant class within the soil map unit polygon for soil drainage class. Each component (and therefore soil map unit polygon) falls into one of the following classes according to NRCS: Very Poorly Drained, Poorly Drained, Somewhat Poorly Drained, Moderately Well Drained, Well Drained, Somewhat Excessively Drained and Excessively Drained. Of soil components which make up greater than or equal to 15% of the soil map unit, the wettest component is reported by the map service. Another service exists for drainage class which reports the dominant class in the soil map unit. The concept is similar but for some purposes knowing the dominant component may be...
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The SSURGO database contains information about soil as collected by the National Cooperative Soil Survey over the course of a century. The information can be displayed in tables or as maps and is available for most areas in the United States and the Territories, Commonwealths, and Island Nations served by the USDA-NRCS. The information was gathered by walking over the land and observing the soil. Many soil samples were analyzed in laboratories. The maps outline areas called map units. The map units describe soils and other components that have unique properties, interpretations, and productivity. The information was collected at scales ranging from 1:12,000 to 1:63,360. More details were gathered at a scale of 1:12,000...
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This map service is an information surface representing the dominant class within the soil map unit polygon for soil drainage class. Each component (and therefore soil map unit polygon) falls into one of the following classes according to NRCS: Very Poorly Drained, Poorly Drained, Somewhat Poorly Drained, Moderately Well Drained, Well Drained, Somewhat Excessively Drained and Excessively Drained. The class belonging to the component that makes up the highest percentage of the map unit is reported by the map service. Another service exists for drainage class which reports the wettest class in the soil map unit. The concept is similar but for some purposes knowing the wettest component may be the most useful piece...
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Emerging applications of ecosystem resilience and resistance concepts in sagebrush ecosystems allow managers to better predict and mitigate impacts of wildfire and invasive annual grasses. Soil temperature and moisture strongly influence the kind and amount of vegetation, and consequently, are closely tied to sagebrush ecosystem resilience and resistance (Chambers et al. 2014, 2016). Soil taxonomic temperature and moisture regimes can be used as indicators of resilience and resistance at landscape scales to depict environmental gradients in sagebrush ecosystems that range from cold/cool-moist sites to warm-dry sites. We aggregated soil survey spatial and tabular data to facilitate broad-scale analyses of resilience...
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Mississippi River Basin Gridded SSURGO mapunits with at least 5% organic matter (generalized calculation using soil organic carbon values in the 0-20 cm horizon; assuming that bulk density is 1.4 g/cubic meter and that organic matter is 58% carbon).
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Mississippi River Basin Gridded SSURGO potential wetland soil landscapes (PWSL version 1) - the percentage of the map unit (all components) that meet the criteria for a potential wetland soil landscape. For version 1 (pwsl1), those soil components that meet the following criteria are tagged as PWSL and their comppct_r values are summed for each map unit. Soil components with hydricrating = 'YES' are considered PWSL. Soil components with hydricrating = “NO” are not PWSL. Soil components with hydricrating = 'UNRANKED' are tested using other attributes, and will be considered PWSL if any of the following conditions are met: drainagecl = 'Poorly drained' or 'Very poorly drained' or the localphase or the otherph data...
map background search result map search result map Annual Minimum Soil Depth To Water Table Wettest Soil Drainage Class Dominant Soil Drainage Class Soil Capability Class When Irrigated Available Water Storage In Soil To 100cm Depth - Weighted Average Minimum Depth Through Soil To Bedrock Available Water Storage 0-100 cm - Weighted Average Maximum Soil Flooding Frequency Probability Class Dataset: Index of Relative Ecosystem Resilience and Resistance across Sage-Grouse Management Zones Gridded SSURGO - Organic Soils Gridded SSURGO - Potential Wetland Soil Landscapes Gridded SSURGO - Hydric Classification Gridded SSURGO - Available Water Storage (0-20 cm) Gridded SSURGO - Soil Organic Carbon (0-20 cm) Gridded SSURGO - Farmland Class (Prime/Important) Gridded SSURGO - Cropland Productivity Index (Overall) X 100 Soils (SSURGO), Bear Valley NWR SSURGO soils, San Joaquin River NWR Opportunity Landscapes - Drainage Water Management Soils Data - Salinas River NWR Soils Data - Salinas River NWR Soils (SSURGO), Bear Valley NWR SSURGO soils, San Joaquin River NWR Dataset: Index of Relative Ecosystem Resilience and Resistance across Sage-Grouse Management Zones Gridded SSURGO - Organic Soils Gridded SSURGO - Potential Wetland Soil Landscapes Gridded SSURGO - Hydric Classification Gridded SSURGO - Available Water Storage (0-20 cm) Gridded SSURGO - Soil Organic Carbon (0-20 cm) Gridded SSURGO - Farmland Class (Prime/Important) Gridded SSURGO - Cropland Productivity Index (Overall) X 100 Opportunity Landscapes - Drainage Water Management Annual Minimum Soil Depth To Water Table Wettest Soil Drainage Class Dominant Soil Drainage Class Soil Capability Class When Irrigated Available Water Storage In Soil To 100cm Depth - Weighted Average Minimum Depth Through Soil To Bedrock Maximum Soil Flooding Frequency Probability Class Available Water Storage 0-100 cm - Weighted Average