Real-Time Mobile Mapping for High Intensity Soil Surveys

Real-Time Mobile Mapping for High Intensity Soil Surveys

The collection and analysis of soil data in an efficient and effective manner at a field or site-specific scale is a scientific and technical challenge. Resource managers will have increasing access to digital high-resolution airborne and spaceborne imagery, topographic data, and landscape attributes.

The advantage of obtaining soil information in the field is that it can be used to improve the placement of subsequent test locations. A real-time mobile soil mapping data acquisition software is being designed to utilize existing soil databases as well as other ancillary data (ortho-photos, digital elevation models (DEM), yield maps, etc.) as a sampling guide for high intensity site investigations. Sensors can be mounted on multiple push platforms from hydraulic soil coring units to handheld devices. Depth of testing is automatically associated with sensor output and all data is geo-referenced. Hundreds of acres can be intensely mapped in a single day.

A Soil Imaging Penetrometer (SIP) was developed to obtain real-time, in-situ images of the soil environment. The system utilizes a miniature digital video camera mounted inside a steel housing. A continuous white light-emitting diode (LED) is located in the housing along with a series of mirrors arranged in such a way as to allow the illumination of the soil through an optically transparent sapphire window located in the side of the housing. Sapphire is extremely resistant to abrasion. Light is emitted through the window and illuminates the soil profile as the probe is pushed into the ground. The reflected light is captured enabling the in-situ imaging of the terrestrial environment. Focusing optics and high-resolution imaging enable the viewing of features in the range of tens of microns (10^-6 m). Digital analysis of the images is possible in real-time. Images can be recorded on a small recording device or handheld computer located above ground. One possible application for the SIP is the creation of a “Representative PedonView” for each soil map unit. The digital profile would be available for viewing on the Internet and be used for comparison to image profiles obtained at other locations.

The Physical Property Penetrometer (PPP) is a miniature version of the penetrometer specified to classify soil for geotechnical applications by the American Society of Testing and Materials (ASTM). Currently, near-surface soil investigations are conducted using the penetrometer specified by the American Society of Agricultural Engineers (ASAE). The PPP differs from the ASAE system in that a sleeve friction measurement is obtained in conjunction with tip force.

As soil property data is collected and analyzed in near real-time, it can be integrated with data from other test locations within the same field or site. Various sampling and interpolation routines can be applied to create and update the 3-D maps that are produced as a function of the testing procedure. The maps are “slices” of soil properties at user specified depth intervals across the area of investigation. Each slice is a soil property surface (or horizon) and is draped over (under) the site topography. Soil data collected in this way can be easily integrated with other digital resource data using a geographic information system (GIS). When combined, the PPP and SIP enable the delineation of horizons based on both the physical and optical properties of the soil. Other sensors (electromagnetic, ground penetrating radar, soil moisture, and chemical) can be integrated into the data acquisition process as well. The SIP and PPP have been field tested in California, Illinois, and Wisconsin with over 500 hours of use under harsh conditions demonstrating that the hardware is robust and rugged. The tools and processes can be standardized resulting in a less subjective and more effective high intensity soil survey or site investigation procedure. These tools and techniques can be used to assess, inventory, and monitor soil properties and their volumes at a field scale. Examples of in-situ images, digital video clips, and PPP data can be seen on-line at www.earthit.com.