The following Soils Layers were released last week to the Living Atlas of the World: NEW LAYERS USA Soils Albedo USA Soils Bedrock Depth USA Soils Corrosion Concrete USA Soils Corrosion Steel USA Soils Crop Production USA Soils Drainage Class … Continue reading
The Living Atlas is the foremost collection of authoritative, ready-to-use global geographic information ever assembled. The themed content in the Living Atlas is curated from the best content available in ArcGIS Online. We are excited to have NRCS participate in … Continue reading
Let’s say you’re a farmer or farm real estate broker, and you are evaluating whether or not to buy a piece of land. Your business and your livelihood depends completely on the land and its capability to produce income.
How do you tell the difference between a bad piece of land and a piece of land that has good potential but hasn’t been managed well or has otherwise been neglected? What can the piece of land do, and what is it really worth?
In a time of great uncertainty and volatility in financial markets and real estate valuation, the inherent capability of a piece of land’s soil asset has just become a lot easier to estimate. Image credit: USDA
To help answer these questions, esri has produced two new maps and map layers on arcgis.com. Both are planning-level maps of the economic capability of the United States’ soils. One map shows the economic capability when the soil is irrigated and the other when the soil is not irrigated. These maps are entitled Irrigated Land Capability Class and Non-Irrigated Land Capability Class, respectively.
Both maps are made directly from the SSURGO planning level soil dataset from NRCS. For the more technical among us, we used the MUAGGATT table fields ICCDCD and NICCDCD from SSURGO. Both maps cover the entire USA including Hawaii, Alaska, and Puerto Rico.
At 1:24,000 scale, each part of the United States falls into one of eight broad land capability classes.
The first four classes (1-4) are useful for growing crops, where each class from one to four needs more management or treatment, and has more limitations than the previous class. For example, classes 3 and 4 require more management or treatment than classes 1 and 2.
The last four land capability classes (5-8) are not useful for crops. NRCS recommends these lands be used for things other than crops, like rangeland, forestland, or wildlife habitat. Class eight isn’t even good for forestry, pasture or rangeland, and so instead NRCS recommends those lands be used for recreation, wildlife habitat, watershed, or aesthetic purposes.
These maps feature a color scheme (shown here in 50% transparency) that matches an image of a sample landscape that you see when you click on each soil map unit. This graphic may then be used like a second legend, displaying the eight classes for you on a replica landscape.
Land Capability Class is one of the most important concepts in the US soil dataset SSURGO. Land Capability Class is even used in some states for property tax assessment. In the State of Ohio, for example, the tax code prescribes specifically how to use this map to determine property tax.
Esri plans to release more land capability maps, specifically Land Capability Subclass. We will let you know as soon as these maps are complete and online, and rest assured that the subclasses will be in a format that is easily mashed up with either the Irrigated or Non-Irrigated Capability Class maps.
Special thanks to Michael Dangermond for providing this post. Questions for Michael: email@example.com
Of interest to its hydro customers, Esri has web-enabled four more hydro-related soil maps of the United States from the NRCS SSURGO dataset. The source of the data for these maps is the Map Unit Aggregate Attribute table or MUAGGATT.
The new maps released are as follows:
Ponding Frequency – Presence*
The percentage of the map unit that is subject to water being ponded on the soil surface, expressed as one of four classes; 0-14%, 15-49%, 50-74% or 75-100%.
The shallowest depth to a wet soil layer (water table) at any time during the year expressed as centimeters from the soil surface, for components whose composition in the map unit is equal to or exceeds 15%.
The shallowest depth to a wet soil layer (water table) during the months of April through June expressed in centimeters from the soil surface for components whose composition in the map unit is equal to or exceeds 15%.
The distance from the soil surface to the top of a bedrock layer, expressed as a shallowest depth of components whose composition in the map unit is equal to or exceeds 15%.
In addition to the new maps, some changes were made to the cartography
on the previously released maps entitled Drainage Class-Dominant
Condition and Drainage Class-Wettest. In these webmaps, the new color
scheme has been improved to allow for an easier comparison of soil
drainage characteristics. With the new scheme it is now much easier to
read whether soil drains too much or too little (according to NRCS’
existing classification scheme), and how much or how little in
comparison to neighboring soils.
*These maps are ready to use, but are still beta products at the moment. They will undergo further review, so keep in mind that map colors and the contents page are subject to change. The data is in the same state it was since being provided by the NRCS. So, the data itself is not subject to change, only the cartography and the web medium.
Special thanks to Michael Dangermond for providing the post. Questions for Michael: MDangermond@esri.com.
Esri has web-enabled four soil maps of the United States based upon the NRCS SSURGO dataset. They will be served directly to the ArcGIS system, and their content nodes may be retrieved from arcgis.com or within arcmap itself in version 10. The first maps to be enabled will be from the MUAGGATT attribute table provided in the NRCS SSURGO dataset encapsulating their recommended map unit aggregations. All SSURGO based web maps are enormous in size, they cover the entire United States at once at the planning scale of 1:24:000. At the moment they are being served by the amazon cloud where they may be used in your maps and applications immediately.
The four soil maps are:
In this web map, infiltration rates are grouped into some very broad class estimates. You may use dominant hydrologic group as a basic input to estimate runoff potential in a watershed. A full explanation of the hydrologic group codes may be found on its arcgis.com service page.
This web map indicates some very basic facts about the presence of hydric soils in a soil map unit, whether the soil map unit is made up of all hydric or part hydric soils, or if the map unit is not made of hydric soils at all.
These web maps show drainage class for each soil map unit. There are two drainage class maps based upon two methods of computing the class. The first method shows drainage class by the wettest soil component in the soil map unit, and the second shows drainage class by the most dominant component in each map unit. You may want to use one or the other in modeling depending on what you are trying to simulate in your model.
These soil maps are only the beginning for Esri. Stay tuned to the mapping center and the hydro blog for more hydro related soil maps which will probe deeper into the SSURGO datasets with increasing sophistication.
Special thanks to Michael Dangermond for providing the post. Questions for Michael: MDangermond@esri.com