TY - JOUR T1 - Modeling and mapping soil resistance to penetration and rutting using LiDAR-derived digital elevation data JF - Journal of Soil and Water Conservation SP - 460 LP - 473 DO - 10.2489/jswc.68.6.460 VL - 68 IS - 6 AU - D.M.H. Campbell AU - B. White AU - P.A. Arp Y1 - 2013/11/01 UR - http://www.jswconline.org/content/68/6/460.abstract N2 - Soil resistances to penetration were probed with a hand-held soil cone penetrometer across ridge-to-depression transects for two contrasting study areas in Alberta, Canada: one in the foothills west of Calgary, and one in the boreal plain north of Peace River. The resulting cone index values (CI) were related to plot-measured values for soil moisture, density, texture, organic matter content, soil depth, elevation, slope, and a cartographic depth-to-water index (DTW) by way of multiple regression analysis. Elevation, slope, DTW, and the associated flow accumulation pattern were all derived from a light detection and ranging (LiDAR)-generated bare ground digital elevation model (DEM), at 1 m (3 ft) resolution. The field-determined CI values conformed to a previous formulation that related CI to soil texture, density, and water-filled pore space. In terms of topographic position, CI increased with increasing DTW, in parallel with decreasing soil moisture content and increasing soil density. The resulting best-fitted regression between CI, log10(DTW), and elevation (or study area) was used to map CI and expected all-terrain recreational vehicle–specific rutting depths across the landscape. The maps so generated were in general agreement with the results of a 40 km (25 mi) long soil disturbance survey along a recreational vehicle trail section within the foothill area. ER -